Descriptions of barley genetic stocks for 2010
Transcript of Descriptions of barley genetic stocks for 2010
Barley Genetics Newsletter (2010) 40:45-177
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Descriptions of barley genetic stocks for 2010
Jerome D. Franckowiak
1 and Udda Lundqvist
2
1
Hermitage Research Station, Agri-Science Queensland,
Department of Employment, Economic Development and Innovation
Warwick, Queensland 4370, Australia 2Nordic Gene Bank (Nordgen)
P.O. Box 41, SE-230 53 Alnarp, Sweden
In this volume of the Barley Genetics Newsletter, sixty-four new and revised Barley Genetic
Stock (BGS) descriptions are published (Table 1). The current lists of new and revised BGS
descriptions, including those in Table 1, are again presented by BGS number order (Table 2) and
by locus symbol in alphabetic order (Table 3) in this issue. Information on the description
location, recommended locus name, chromosomal location, previous gene symbols, and the
primary genetic stock (GSHO number and/or NGB number) are included in these lists. The
GSHO stocks are held in the USDA-ARS Barley Genetic Stocks collection at the National Small
Grains Collection (U.S. Department of Agriculture – Agricultural Research Service, National
Small Grains Germplasm Research Facility, 1691 S 2700 W) Aberdeen, ID 83210, USA. The
NGB stocks are held in the Nordic Genetic Resource Center (Nordgen), P.O. Box 41, SE-230 53
Alnap, Sweden. This information is available through the Internet at the following addresses:
(1) www.ars.usda.gov.PacWest/Aberdeen
(2) www.ars-grin.gov:7000/npgs/descriptors/barley-genetics (GRIN)
(3) http://wheat.pw.usda.gov/ggpages/bgn/
(4) http:/www.nordgen.org/sesto
(5) http://ace.untamo.net
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Table 1. A listing of Barley Genetic Stock (BGS) descriptions published in volume 40 of the
Barley Genetics Newsletter, giving recommended locus symbols and names,
chromosomal locations, and stock source information.
BGS
no.
Locus symbol* Chr.
loc.†
Locus name or phenotype Descr.
vol. p.
GSHO
no.‡ Rec. Prev.
52 fch15 or 2HS Chlorina seedling 15 40: 48 49
55 fch1 f, lg 2HS Chlorina seedling 1 40: 49 112
62 sbk1 sk, cal-a 2HS Subjacent hood 1 40: 51 267
71 com2 bir2 2HS Compositum 2 40: 53 1703
81 gsh7 gs7 1H/2H/5H Glossy sheath 7 40: 55 1759
97 acr1 acr 2HL Accordion rachis 1 40: 56 1617
146 cal-d 3H Calcaroides-d 40: 58 1698
150 scl-b scl.5 3HL/6HS Scirpoides leaf-b 40: 60
155 glf1 gl, cer-zh 4HL Glossy leaf 1 40: 61 98
186 sld3 ant17.567 4HS Slender dwarf 3 40: 63 2480
189 Acr2 acr, lax 4HL Accordion rachis 2 40: 65 1572
190 tfm1 1HL Thick filament 1 40: 67
191 fch17 vy3 1HL/3HL Chlorina seedling 17 40: 68 1079
203 Blp1 B 1HL Black lemma and pericarp 1 40: 69 988
220 fch3 f3 1HS Chlorina seedling 3 40: 71 851
223 Zeb3 zb3, zbc 1HL Zebra stripe 3 40: 72 1451
224 ert-b ert-b 1HL Erectoides-b 40: 74 470
225 clh1 clh 7HL/5HL Curled leaf dwarf 1 40: 76 1212
226 rvl1 rvl 1HL Revoluted leaf 1 40: 77 608
227 sls1 sls 1HL Small lateral spikelet 1 40: 78 2492
228 Sil1 Sil 1H Subcrown internode length 1 40: 79 1604
232 Lys4 sex5 1HS High lysine 4 40: 80 2475
238 ari-t ari-25 1H Breviaristatum-t 40: 82
239 sci-b sci-4 1H/6H Scirpoides-b 40: 83
240 sdw6 sdw.f 1H/7H Semidwarf 6 40: 84 2449
241 Acr3 acr 1HL Accordion rachis 3 40: 85 1071
242 sld6 sld.g 1H Slender dwarf 6 40: 87 2482
308 lbi1 lb, rac-a 5HL Long basal rachis internode 1 40: 88 580
315 vrs3 v3, int-a 1HL Six-rowed spike 3 40: 90 774
351 gsh1 gs1, cer-q 2HS Glossy sheath 1 40: 92 735
356 gsh6 gs6, cer-c 2HS Glossy sheath 6 40: 95 740
357 msg1 ms1 1HL Male sterile genetic 1 40: 98 1810
360 msg4 ms4 1H Male sterile genetic 4 40:100 2392
376 msg21 ms21 1HL Male sterile genetic 21 40:101 2373
400 cer-e cer-e 1HL Eceriferum-e 40:102 1518
401 cer-f cer-f 1H Eceriferum-f 40:104 427
409 cer-o cer-o 1HL Eceriferum-o 40:106 436
413 gsh8 cer-u, gs8 2HS Glossy sheath 8 40:107 442
422 cer-zd cer-zd 3HL Eceriferum-zd 40:110 451
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Table 1. (continued)
BGS
no.
Locus symbol* Chr.
loc.†
Locus name or phenotype Descr.
vol. p.
GSHO
no.‡ Rec. Prev.
431 cer-zn cer-zb 1H Eceriferum-zn 40:112 1523
438 cer-zu cer-zu 1H Eceriferum-zu 40:114 1528
442 cer-zy cer-zy 1HS Eceriferum-zy 40:116 1532
468 msg31 msg,,d 1HL Male sterile genetic 31 40:117 2383
473 com1 bir1 5HL Compositum 1 40:118 1702
474 lax-a lax-a 5HL Laxatum-a 40:120 1775
502 msg39 msg,,dm 3HL Male sterile genetic 39 40:122 2391
520 msg48 msg,,jt 1H Male sterile genetic 48 40:123 2401
523 cer-yj cer-yj 1HS Eceriferum-yj 40:124 1543
527 cer-yn cer-yn 1H Eceriferum-yn 40:125 1547
533 cer-yt cer-yt 1HL/5HL Eceriferum-yt 40:126 1553
534 cer-yu cer-yu 1H Eceriferum-yu 40:127 1554
535 cer-yx cer-yx 1H/3H/5H Eceriferum-yx 40:128 1555
536 Cer-yy Gle1 1HS Eceriferum-yy 40:129 1556
548 Fol-b Ang 1HS Angustifolium-b 40:131 17
557 ari-p ari-p Breviaristatum-p 40:132 1664
560 ert-f ert-f 1H Erectoides-f 40:133 478
566 ert-t ert-t, brh3 2HS Erectoides-t 40:134 494
568 ert-x ert-x 1H/7H Erectoides-x 40:136 498
582 mat-f mat-f 1H Praematurum-f 40:137 1792
586 bra-d bra-d 1HL Bracteatum-d 40:139 1696
615 wxs1 wxs 7H/2HL Waxy spike 1 40:141
626 scl-a scl-6 1HL Scirpoides leaf-a 40:142
635 nec7 nec-45 1H/6H/7H Necroticans 7 40:143 2420
676 fch16 clo.117 2HS Chlorina seedling 16 40:144
* Recommended locus symbols are based on utilization of a three letter code for barley genes as
approved at the business meeting of the Seventh International Barley Genetics Symposium at
Saskatoon, Saskatchewan, Canada, on 05 August 1996.
† Chromosome numbers and arm designations are based on a resolution passed at the business
meeting of the Seventh International Barley Genetics Symposium at Saskatoon, Saskatchewan,
Canada, on 05 August 1996. The Burnham and Hagberg (1956) designations of barley
chromosomes were 1 2 3 4 5 6 and 7 while new designations based on the Triticeae system are
7H 2H 3H 4H 1H 6H and 5H, respectively.
‡ The seed stock associated with each BGS number is held as a GSHO stock number in the
Barley Genetics Stock Collection at the USDA-ARS National Grains Germplasm Research
Facility, Aberdeen, Idaho, USA.
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BGS 52, Chlorina seedling 15, fch15
Stock number: BGS 52 Locus name: Chlorina seedling 15 Locus symbol: fch15 Previous nomenclature and gene symbolization:
Orange seedling = or (3). Inheritance:
Monofactorial recessive (3). Located in chromosome 2HS (3), about 18.5 cM distal from the fch1 (chlorina seedling 1) locus (2, 3); associated with SNP markers 2_1338 to 2_0699 (positions 74.97 to 126.33 cM) in 2H of the Bowman backcross-derived line BW357 (1), likely in 2H bin 06.
Description: The normal color of seedlings is altered to "apricot yellow" when plants are grown in the field under low temperature. Plants respond better to higher temperatures and can be grown to maturity in suitable environments (3, 4). The yellow plant color is stable nearly to maturity (4).
Origin of mutant: A spontaneous mutant in Trebi (PI 537442) (3).
Mutational events: fch15.x (or1.a) in Trebi (Trebi IV, GSHO 49) (3).
Mutant used for description and seed stocks: fch15.x in Trebi (GSHO 49), fch15.x in Bowman (PI 483237)*2 (BW357, NGB 20596).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Robertson, D.W. 1967. Linkage studies of various barley mutations (Hordeum species). Crop Sci. 7:41-42. 3. Robertson, D.W., and O.H. Coleman. 1940. The addition of two factors for chlorophyll-deficient seedlings to the linkage groups of barley. J. Genet. 39:401-410. 4. Tsuchiya, T. 1971. Viability of or (orange seedling) homozygotes. Barley Genet. Newsl. 1:65-66.
Prepared: T. Tsuchiya and T.E. Haus. 1971. Barley Genet. Newsl. 1:112.
Revised: T. Tsuchiya. 1980. Barley Genet. Newsl. 10:104. J.D. Franckowiak and A. Hang. 1997. Barley Genet. Newsl. 26:88. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:48.
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BGS 55, Chlorina seedling 1, fch1
Stock number: BGS 55 Locus name: Chlorina seedling 1 Locus symbol: fch1 Previous nomenclature and gene symbolization:
Chlorina seedling = f (6). Light green = lg (5). Light green 8 = lg8 (4). Light green 10 = lg10 (4).
Inheritance: Monofactorial recessive (3, 5, 6). Located in chromosome 2HS (3, 10), in the centromeric region and about 4.0 cM distal from the eog1 (elongated outer glume 1) locus (3, 7), associated with SNP markers 1_1493 to 2_0458 (positions 76.05 to 96.47 cM) in 2HS of the Bowman backcross-derived line BW351 (1), likely in 2H bin 07.
Description: Seedling and immature leaves are very pale yellow-green (chlorophyll deficient) (6). The leaves gradually change to a green color beginning with the leaf tip. Plants can be grown to maturity in the field, but they have a slightly yellow-green color and are stunted easily by stress. Plants of the Bowman backcross-derived line BW351 headed about 10 days later than Bowman and were slightly shorter. Plants produced a few more kernels per spike and rachis internodes were slightly shorter. Kernels were 10 to 15% lighter and they were slightly shorter and thinner. Grain yields were 1/2 to 2/3 of normal (2).
Origin of mutant: A spontaneous mutant in Golden (Gull, CIho 1145, GSHO 466) (6).
Mutational events: fch1.a (GSHO 112) in Gull (6, 9); fch1.p (lg) (Minn 80, GSHO 548) (5, 9); fch1.q (lg8) (No 155, GSHO 8) (4, 8); and fch1.r (lg10) (No 157, GSHO 154) in Himalaya (CIho 1312) (4).
Mutant used for description and seed stocks: fch1.p in Minn 84-7 (GSHO 548); fch1.p in Bowman (PI 483237)*9 (GSHO 1886, BW351, NGB 20690).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Hallqvist, C. 1926. Koppelungen und synthetische Lethalität bei den Chlorophyllfaktoren der Gerste. Hereditas 8:229-254. 4. Haus, T.E. 1973. Allelism among light green, lg, seedling mutants. Barley Genet. Newsl. 3:17-18. 5. Immer, F.R., and M.T. Henderson. 1943. Linkage studies in barley. Genetics 28:419-420. 6. Nilsson-Ehle, H. 1922. Über freie Kombination und Koppelung verschiedener Chlorophyllerbeinheiten bei Gerste. Hereditas 3:191-199. 7. Robertson, D.W., G.W. Deming, and D. Koonce. 1932. Inheritance in barley. J. Agric. Res. 44:445-466.
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8. Robertson, D.W., G.A. Wiebe, and R.G. Shands. 1947. A summary of linkage studies in barley: Supplement I, 1940-1946. J. Am. Soc. Agron. 39:464-473. 9. Tsuchiya, T. 1974. Allelism of f for chlorina and lg for light green (chlorina) in chromosome 2S in barley. Barley Genet. Newsl. 4:79. 10. Tsuchiya, T., and R.J. Singh. 1973. Further information on telotrisomic analysis in barley. Barley Genet. Newsl. 3:75-79.
Prepared: T. Tsuchiya and T.E. Haus. 1971. Barley Genet. Newsl. 1:115.
Revised: T. Tsuchiya. 1980. Barley Genet. Newsl. 10:106. J.D. Franckowiak and A. Hang. 1997. Barley Genet. Newsl. 26:90. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:49-50.
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BGS 62, Subjacent hood 1, sbk1
Stock number: BGS 62 Locus name: Subjacent hood 1 Locus symbol: sbk Previous nomenclature and gene symbolization:
Subjacent hood = sk (9). Hooded awn 2 = k2 (12). Hoods = kr (11). Calcaroides-a = cal-a (4, 5).
Inheritance: Monofactorial recessive (8, 9). Located in chromosome 2HS (8, 9, 10), distal from molecular marker CDO057 (7), associated with SNP markers 1_0326 and 1_1059 (positions 16.91 and 17.96 cM) in 2HS of the Bowman backcross-derived line BW767, markers 1_1059 to 2_0563 (positions 17.96 to 21.19 cM) in 2HS of the Bowman backcross-derived line BW766, and marker 1_0326 (2), in 2H bin 02.
Description: Unlike the Kap1 (hooded awn 1) mutants, the lemma appendage or its modification is situated somewhat below the top of the lemma. Lemma modifications may include a central cup-like cavity or sac in some alleles and/or pronounced lemma wings in other alleles (1, 7). The modified lemma bears a short distal awn. Only a few florets of the spike have malformations in alleles cal-a.3, -a.6, -a.7, and -a.17 and these alleles are associated with the formation of pronounced wings (7). There are no rudiments of a floral organ within the hood-like cavity (7, 8, 9). Leaf knots and leaf curling are present in some alleles (7). In the homozygous condition, the sbk1.a gene is epistatic to Kap1.a and to Lks1.a (awnless) genes (8). Plants of the Bowman backcross-derived lines BW103, BW766, and BW767 were much less vigorous than Bowman, about 3/4 of normal height and 3 to 4 fewer fertile rachis nodes. The kernel of the BW766 and BW767 plants were about 1/2 of normal weight, and grain yields were about 1/10 of normal. Plants of the BW103 line were more vigorous with kernel weights about 3/4 of those for Bowman and grain yield of about 1/2 of normal. The effects of the sbk1 mutants on plant vigor were less pronounced in cooler environments (3).
Origin of mutant: A spontaneous mutant identified as Tayeh 13 (OUC335) (6); an X-ray induced mutant in Bonus (PI 189763) (6).
Mutational events: sbk1.a (GSHO 267) in Tayeh 13 (8); cal-a.1 in Bonus (NGB 114280, 114281) (5, 6); cal-a.3 (NGB 114283), -a.5 (NGB 114285) in Foma (CIho 11333); cal-a.6 (NGB 114286) in Bonus; cal-a.7 (NGB 114287), -a.8 (NGB 114288, 114289), -a.11 (NGB 114290, 114291), -a.12 (NGB 114292), -a.13 (NGB 114293) in Foma; cal-a.16 (NGB 114295), -a.17 (NGB 114296), -a.20 (NGB 114299), -a.21 (NGB 114300) in Bonus (5, 6); sbk1.b (kr) in Montcalm (CIho 7149) (11).
Mutant used for description and seed stocks: sbk1.a in Tayeh 13 (GSHO 267); sbk1.a via R.I. Wolfe’s multiple recessive stock for chromosome 2 in Bowman (PI 483237)*4 (BW766, NGB 22234); sbk1.b in Montcalm, in Bowman*7 (GSHO 1874, BW767, NGB 22235); cal-a.1 in Bonus (GSHO 286, NGB 114280, NGB 114281); cal-a.1 in Bowman*3 (GSHO 2186), in Bowman*6 (BW103, NGB 20509).
References: 1. Bossinger, G., U. Lundqvist, W. Rohde, and F. Salamini. 1992. Genetics of plant development in barley. p. 989-1017. In L. Munck, K. Kirkegaard, and B. Jensen (eds.).
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Barley Genetics VI. Proc. Sixth Int. Barley Genet. Symp., Helsingborg, 1991. Munksgaard Int. Publ., Copenhagen. 2. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 3. Franckowiak, J.D. (Unpublished). 4. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 5. Lundqvist, U. 1993. Coordinator's report: Ear morphology genes. Barley Genet. Newsl. 22:137-139. 6. Lundqvist, U. (Unpublished). 7. Pozzi, C., P. Faccioli, V. Terzi, A.M. Stanca, S. Cerioli, P. Castiglioni, R. Fink, R. Capone, K.J. Müller, G. Bossinger, W. Rohde, and F. Salamini. 2000. Genetics of mutations affecting the development of a barley floral bract. Genetics 154:1335-1346. 8. Takahashi, R., and J. Hayashi. 1966. Inheritance and linkage studies in barley. II. Assignment of several new mutant genes to their respective linkage groups by the trisomic method of analysis. Ber. Ohara Inst. landw. Biol., Okayama Univ. 13:185-198. 9. Takahashi, R., J. Yamamoto, S. Yasuda, and Y. Itano. 1953. Inheritance and linkage studies in barley. Ber. Ohara Inst. landw. Forsch. 10:29-52. 10. Tsuchiya, T., and R.J. Singh. 1973. Further information on telotrisomic analysis in barley. Barley Genet. Newsl. 3:75-79. 11. Walker, G.W.R., J. Dietrich, R. Miller, and K.J. Kasha. 1963. Recent barley mutants and their linkages II. Genetic data for further mutants. Can. J. Genet. Cytol. 5:200-219. 12. Woodward, R.W. 1957. Linkages in barley. Agron. J. 49:92-94.
Prepared: T. Tsuchiya and T.E. Haus. 1971. Barley Genet. Newsl. 1:122.
Revised: J.D. Franckowiak and U. Lundqvist. 1997. Barley Genet. Newsl. 26:98. J.D. Franckowiak and U. Lundqvist. 2002. Barley Genet. Newsl. 32:83-84. J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:51-52.
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BGS 71, Compositum 2, com2
Stock number: BGS 71 Locus name: Compositum 2 Locus symbol: com2 Previous nomenclature and gene symbolization:
Branching inflorescent, rachilla 2 = bir2 (3, 4). Inheritance:
Monofactorial recessive (3, 6). Located in chromosome 2HS (3, 4); associated with SNP markers 1_0525 to 1_0325 (positions 65.03 to 90.54 cM) in 2HS of the Bowman backcross-derived line BW192 and associated with markers 1_0943 to 1_1015 (positions 34.31 to 91.62 cM) in 2HS of the Bowman backcross-derived line BW187 (1); no SNP markers in 2HS were retained in Bowman backcross-derived line BW191 (1).
Description: The spike is malformed because branch spikes fail to abort and rachis branches form from rachis nodes in the basal half of the spike. Spike branches form at more rachis nodes under favorable conditions for vigor growth (2, 5). Plants of the Bowman backcross-derived lines BW191 and BW192 were slightly shorter than Bowman and often had slightly shorter awns. Kernel sizes were variable for BW191 and BW192 and averages weights were lower than those of Bowman. Kernels were on average shorter and thinner, but BW191 plants had smaller grains than those of BW192. Grain yields of BW191 and BW192 were commonly lower than those of Bowman (2).
Origin of mutant: An X-ray induced mutant in Donaria (PI 161974) (6).
Mutational events: com2.f (Mut 2201, GSHO 1700) in Donaria (6); com2.g (GSHO 1703) from the ICARDA-CIMMYT collection of barley freaks (4); com2.k (GSHO 79) in Davis 1153 (), which likely is the same mutant as com2.g based on SNP markers retained in their Bowman backcross-derived lines (1).
Mutant used for description and seed stocks: com2.f (GSHO 1700) in Donaria; com2.f in Bowman (PI 483237)*7 (GSHO 2233, BW191, NGB 22023); com2.g in a freak stock from CIMMYT (GSHO 1703); com2.g in Bowman (PI 483237)*8 (GSHO 1878, BW192, NGB 22024); com2.k (GSHO 79) in Davis 1153; com2.k in Bowman*3 (BW187, NGB 22019)
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Franckowiak, J.D. 1992. Mapping a gene for photoperiod sensitivity in barley. Agron. Abstr. 1992:96. 4. Franckowiak, J.D. 1992. Allelism tests among selected semidwarf barleys. Barley Genet. Newsl. 21:17-23. 5. Franckowiak, J.D., B.P. Forster, U. Lundqvist, J. Lyon, I. Pitkethly, and W.T.B. Thomas. 2010. Developmental mutants as a guide to the barley phytomer. In S. Ceccarelli, S. Grando, et al. (eds.) Barley Genetics X. Proc. Tenth Int. Barley Genet. Symp., Alexandria, Egypt, 2008.
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6. Scholz, F., and O. Lehmann. 1958. Die Gaterslebener Mutanten der Saatgerste in Beziehung zur Formenmannigfaltigkeit der Art Hordeum vulgare L.s.l.I. Kulturpflanze 6:123-166.
Prepared: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:108.
Revised: J. D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:53-54.
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BGS 81, Glossy sheath 7, gsh7
Stock number: BGS 81 Locus name: Glossy sheath 7 Locus symbol: gsh7 Previous nomenclature and gene symbolization:
Glossy sheath 7 = gs7 (3). Inheritance:
Monofactorial recessive (3). Located in chromosomes 1H, 2HL or 5H (1), based on segments of the donor parent chromosomes retained in the Bowman backcross-derived line BW410, possible locations based on SNP markers included 1_0259 to 2_0229 (positions 70.78 to 106.61 cM) in 1H, 1_0916 to 2_0681 (positions 187.68 to 247.86 cM) in 2HL, 1_0580 to 1_0955 (positions 54.27 to 69.76 cM) in 5HS, and 2_0367 to 2_1445 (positions 116.66 to 134.85 cM) in 5HL (1).
Description: The spike, leaf sheath and stem of mutant plants are glossy and bright green in color (wax code - - ++) (3). In early generation backcrosses to Bowman, the glossy sheath 7 segregates headed early and had poor vigor and small spikes. Also, spikes frequently abort after emasculation (2). Plants of the Bowman backcross-derived line were 2/3 to 3/4 of normal height. Kernels are slightly longer and thinner than those of Bowman and kernel weights are about 2/3 of normal. Grain yields are less than 10% of normal (2).
Origin of mutant: An ethyl methanesulfonate induced mutant in Akashinriki (OUJ659, PI 467400) (3).
Mutational events: gsh7.ae (GSHO 1759) in Akashinriki (OUM022) (3).
Mutant used for description and seed stocks: gsh7.ae in Akashinriki (GSHO 1759); gsh7.ae in Bowman (PI 483237)*5 (GSHO 2269, BW410, NGB 20643).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Konishi, T. 1973. Genetic analyses of EMS-induced mutants in barley. Barley Genet. Newsl. 3:28-31.
Prepared: T. Konishi and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:119.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:55.
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BGS 97, Accordion rachis 1, acr1
Stock number: BGS 97 Locus name: Accordion rachis 1 Locus symbol: acr1 Previous nomenclature and gene symbolization:
Lax rachis internode = ril (2). Accordion rachis = acr (5, 6).
Inheritance: Monofactorial recessive (2, 5, 6), part of a multiple genic series involving acr1, acr2 and acr3 required for expression (3). Located in chromosome 2HL (3), near the vrs1 (six-rowed spike 1) locus because no recombination with the Vrs1.t (deficiens) allele was observed (3); associated with SNP markers 1_0525 to 2_0667 (positions 65.03 to 117.73 cM) in 2H of the Bowman backcross-derived lines BW009 and BW439 (1), likely in 2H bins 06 to 08.
Description: Rachis internodes are greatly elongated and often bent or pleaded as the spike emerges from the boot or sheath of the flag leaf (5). The line ACBV89B229, developed by R.I. Wolfe to maximize rachis internode length, exhibits extreme elongation of rachis internodes, rachis internode length values up to 7.0 mm, and occasionally trapping of the spike tip in the boot (3, 7). Elongation of the rachis internodes is associated with slightly elongated outer glumes and the deficiens (Vrs1.t) spike phenotype. Two modifiers, acr2 (see BGS 189) and acr3 (see BGS 241), apparently cause variable expression of the accordion trait in different genetic backgrounds. In crosses to Bowman, segregation for acr1 fit a three gene model based on DNA segments retained in the Bowman backcross-derived lines BW009 and BW439 (1, 3). Although the acr1 gene is apparently associated with the deficiens spike type, the large centromeric segment of 2H retained does not overlap the six-rowed spike 1 (vrs1) locus (1). A pericentric inversion can not be eliminated as a possibility. Plants in the BW009 and BW439 lines were about 3/4 of normal height and peduncles were about 1/2 of normal length. The number of fertile rachis nodes was reduced by about 3 and heading was delayed by up to 4 days. Kernels appeared thinner and weighted about 10% less. Test weights were low and grain yield was about 3/4 of normal (3).
Origin of mutant: A naturally occurring deviant (4) incorporated into several genetic stocks, acr1.a in Beaverlodge stock ACBV89B229 was used to study this locus (3, 7).
Mutational events: acr1.a in ACBV89B229 (GSHO 1617) and ACBV89232 (GSHO 1573) (7).
Mutant used for description and seed stocks: acr1.a in ACBV89B229 (GSHO 1617); acr1.a in Bowman (PI 483237)*4 (GSHO 1899), in Bowman*7 (BW009, NGB 20417 and BW439, NGB 20671).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Enns, H. 1961. Inheritance and linkage studies in barley using chromosomal interchanges and marker stocks. Ph.D. Thesis. Univ. Saskatchewan. pp. 70. 3. Franckowiak, J.D. (Unpublished).
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4. Franckowiak, J.D. 1995. Notes on linkage drag in Bowman backcross derived lines of spring barley. Barley Genet. Newsl. 24:63-70. 5. Haus, T.E. 1957. Inheritance of rachis internode length and an abnormal rachis type in barley. Dissertation Abstr. 49:179-180. 6. Nilan, R.A. 1964. The cytology and genetics of barley, 1951-1962. Monogr. Suppl. 3, Res. Stud. Vol. 32, No. 1. Washington State Univ. Press, Pullman. 7. Wolfe, R.I. 1990. (Personal communications).
Prepared: J.D. Franckowiak. 2002. Barley Genet. Newsl. 32:85.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:56-57.
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BGS 146, Calcaroides-d, cal-d
Stock number: BGS 146 Locus name: Calcaroides-d Locus symbol: cal-d Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (5, 6). Located in chromosome 3H (7), near the centromere and near molecular marker CDO684 (7); associated with SNP markers 1_0672 to 2_1502 (positions 58.56 to 100.48 cM) in 3H of the Bowman backcrossed-derived line BW106 (2), in 3H bin 06.
Description: At the tip of the lemma proper, in a position corresponding to the transition between lemma and awn, cal-d mutants bear a well-organized ectopic structure, the sac (1, 7). Only the allele cal-d.22 does not produce pronounced lemma wings. The cal-d mutants bear a short distal awn (7). In contrast to the Kap1 (hooded lemma 1) phenotype, the sac does not develop into an epiphyllous flower. The cal-d alleles are associated with leaf curling also (7). The awn malformation of cal-d mutants is associated with developmental activation of the phytomeric triad separating the lemma from awn (4). Plants of the Bowman backcross-derived line for cal-d.4, BW106, were about 3/4 of normal height and headed one day later than Bowman. Awns were 1/2 and peduncles were 2/3 of normal length and leaf blades were slightly narrower. Kernels of BW106 were thin and weighted about 1/3 less than those of Bowman. Test weights were low and grain yields were less than 1/2 of normal (3).
Origin of mutant: An X-ray induced mutant in Foma (CIho 11333) (6, 7).
Mutational events: cal-d.4 (GSHO 1698, NGB 114284) in Foma (6); cal-d.14 (NGB 119381) in Kristina (NGB 1500), -d.18 (NGB 114297), -d.22 (NGB 114301, 114302) in Bonus (PI 189763) (5).
Mutant used for description and seed stocks: cal-d.4 in Foma (NGB 114284, GSHO 1698); cal-d.4 in Bowman (PI 483237)*6 (GSHO 1875), in Bowman*7 (BW106, NGB 20512).
References: 1. Bossinger, G., U. Lundqvist, W. Rohde, and F. Salamini. 1992. Genetics of plant development in barley. p. 989-1017. In L. Munck, K. Kirkegaard, and B. Jensen (eds.). Barley Genetics VI. Proc. Sixth Int. Barley Genet. Symp., Helsingborg, 1991. Munksgaard Int. Publ., Copenhagen. 2. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 3. Franckowiak, J.D. (Unpublished). 4. Franckowiak, J.D., B.P. Forster, U. Lundqvist, J. Lyon, I. Pitkethly, and W.T.B. Thomas. 2010. Developmental mutants as a guide to the barley phytomer. In S. Ceccarelli and S. Grando (eds.) Barley Genetics X. Proc. Tenth Int. Barley Genet. Symp., Alexandria, Egypt, 2008.
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5. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 6. Lundqvist, U. 1993 Coordinator's report: Ear morphology genes. Barley Genet. Newsl. 22:137-139. 7. Pozzi, C., P. Faccioli, V. Terzi, A.M. Stanca, S. Cerioli, P. Castiglioni, R. Fink, R. Capone, K.J. Müller, G. Bossinger, W. Rohde, and F. Salamini. 2000. Genetics of mutations affecting the development of a barley floral bract. Genetics 154:1335-1346.
Prepared: U. Lundqvist and J. D. Franckowiak. 2002. Barley Genet. Newsl. 32:95.
Revised: U. Lundqvist and J. D. Franckowiak. 2010. Barley Genet. Newsl. 40:58-59.
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BGS 150, Scirpoides leaf-b, scl-b
Stock number: BGS 150 Locus name: Scirpoides leaf-b Locus symbol: scl-b Previous nomenclature and gene symbolization:
Scirpoides leaf-5 = scl.5 (3). Inheritance:
Monofactorial recessive (2). Probably located on chromosomes 3HL or 6HS (1), associated with SNP markers 2_0130 to 1_1172 (positions 151.97 to 190.87 cM) in 3HL and with SNP markers 1_0061 to 1_1205 (positions 70.15 to 82.43 cM) in 6HS of the Bowman backcross-derived line BW777 (1).
Description: Leaf blades of scl-b plants are folded inward and are narrow compared to those of normal sibs. Folding of the leaf blade persists until maturity (2, 3). Plants of Bowman backcross-derived line BW777 were 15% shorter than Bowman, kernels were narrower and 15% lighter, and grain yields were about 25% lower (2). Plants of BW777 have inward folded leaf blades that are less than 2/3 as wide as those of Bowman (2). When grown in the greenhouse scl-b.5 plants had very narrow leaf blades that showed more inward folding than scl-a mutants. Also, the awns of spikes were often trapped by the collar of the flag leaf during spike emergence (2). A new locus symbol is recommended based on the morphological differences compared to scl-a mutants and the lack of SNP markers retained in chromosome 1HL (1, 2).
Origin of mutant: A mutant was induced by UV-ray treatment of pollen grains of Bonus (PI 189763) (3).
Mutational events: scl-b.5 in Bonus (NGB 117103) (3).
Mutant used for description and seed stocks: scl-b.5 in Bonus (NGB 117103), scl-b.5 in Bowman (PI 483237)*3 (BW777, NGB 20754).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished).
Prepared: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:60.
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BGS 155, Glossy leaf 1, glf1
Stock number: BGS 155 Locus name: Glossy leaf 1 Locus symbol: glf1 Previous nomenclature and gene symbolization:
Waxless bloom on leaves = w1 (13). Glossy = gl (11). Glossy leaves = gl (18). Glossy leaf = gl (17). Glossy seedling 2 = gl2 (5, 11). Eceriferum-zh = cer-zh (6).
Inheritance: Monofactorial recessive (11). Located in chromosome 4HL (5, 11, 14, 16); about 7.5 cM distal from the lbi2 (long basal rachis internode 2) locus and about 4.8 cM distal from the Mlg (Reg2, reaction to Erysiphe graminis 2) locus (2); associated with SNP markers 2_0820 to 1_0606 (positions 89.78 to 95.92 cM) in 4HL of the Bowman backcross-derived line BW385 (1), in 4H bin 06.
Description: Surface wax coating on the leaf blade appears absent from the seedling stage to near maturity, and leaves have a shiny appearance (wax code ++ ++ -) (6). Plants are semidwarf, relatively weak, and late in heading. The stock in the Bonus is highly sterile (6), but the Bowman backcross-derived line has nearly complete fertility. The lack of surface waxes reduces the ability of growing germ tube of certain fungi to find the stomata openings (12). Plants of Bowman backcross-derived line BW385 were 5 to 15% shorter than Bowman and headed about 2 days later. Kernel weights were about 20% lower and grain yields were approximately 3/4 of normal (3).
Origin of mutant: A radiation induced mutant in Himalaya (CIho 1312) (11, 15), an X-ray induced mutant in Bonus (PI 189763) (6).
Mutational events: glf1.a (GSHO 98), glf1.b (gl2, GSHO 22) in Himalaya (15); glf1.f in 34-119-1, glf1.g in II-34-199-7-2 (GSHO 89) (4); cer-zh.54 (NGB 110938, GSHO 455) in Bonus (6, 7); cer-zh.266 (NGB 111153), -zh.308 (NGB 111195), -zh.357 (NGB 111244, NGB 117254), -zh.366 (NGB 111253), -zh.432 (NGB 111320), -zh.433 (NGB 111321, NGB 117256) in Foma (CIho 11333) (7, 10); cer-zh.325 (NGB 111212) in Foma (7); cer-zh.373 (NGB 111260) in Foma (8); cer-zh.865 (NGB 111753) in Bonus (9); glf1.h (MXM137) in Morex (CIho 15773) based on phenotype and SNP markers retained in the Bowman backcross-derived line BW384 (1, 3).
Mutant used for description and seed stocks: glf1.a in Himalaya (GSHO 98); cer-zh.54 in Bonus (GSHO 455, NGB 110938) was used for allelism tests; glf1.a via R.I. Wolfe’s Chromosome 4 Multiple Recessive Marker Stock in Bowman (PI 483237)*8 (GSHO 2015, BW385, NGB 20623); cer-zh.54 in Bowman*3 (BW164, NGB 21996); glf1.h in Bowman*5 (BW384, NGB 22146).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010.
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Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Forster, B.P. 1993. Coordinator's report: Chromosome 4. Barley Genet. Newsl. 22:75-77. 3. Franckowiak, J.D. (Unpublished). 4. Haus, T.E., and T. Tsuchiya. 1972. Allelic relationships among glossy seedling mutants. Barley Genet. Newsl. 2:79-80. 5. Immer, F.R., and M.T. Henderson. 1943. Linkage studies in barley. Genetics 28:419-440. 6. Lundqvist, U., and D. von Wettstein. 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362. 7. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 8. Lundqvist, U., and D. von Wettstein. 1973. Stock list for the eceriferum mutants II. Barley Genet. Newsl. 3:110-112. 9. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 5:92-96. 10. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 11. Robertson, D.W., and O.H. Coleman. 1942. Location of glossy and yellow leaf seedlings in two linkage groups. J. Am. Soc. Agron. 34:1028-1034. 12. Rubiales, D., M.C. Ramirez, T.L.W. Carver, and R.E. Niks. 2001. Abnormal germling development by brown rust and powdery mildew on cer barley mutants. Hereditas 135:271-276. 13. Smith, L. 1951. Cytology and genetics of barley. Bot. Rev. 17:1-55, 133-202, 285-355. 14. Tsuchiya, T. 1981. Revised linkage maps of barley. 1981. Barley Genet. Newsl. 11:96-98. 15. Tsuchiya, T., and T.E. Haus. 1973. Allelism testing in barley. I. Analysis of ten mapped genes. J. Hered. 64:282-284. 16. Tsuchiya, T., and R.J. Singh. 1982. Chromosome mapping in barley by means of telotrisomic analysis. Theor. Appl. Genet. 61:201-208. 17. Walker, G.W.R., J. Dietrich, R. Miller, and K. Kasha. 1963. Recent barley mutants and their linkages II. Genetic data for further mutants. Can. J. Genet. Cytol. 5:200-219. 18. Woodward, R.W. 1957. Linkages in barley. Agron. J. 49:28-32.
Prepared: T.E. Haus and T. Tsuchiya. 1971. Barley Genet. Newsl. 1:141 as BGS 155, Glossy seedling, gl; and Barley Genet. Newsl. 1:145 as BGS 159, Glossy seedling 2, gl2. U. Lundqvist. 1975. Barley Genet. Newsl. 5:144 as BGS 426, Eceriferum-zh, cer-zh.
Revised: T. Tsuchiya. 1980. Barley Genet. Newsl. 10:114 as BGS 155, Glossy seedling, gl; and Barley Genet. Newsl. 10:116 as BGS 159, Glossy seedling 2, gl2. U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:181-182. U. Lundqvist and J.D. Franckowiak. 2007. Barley Genet. Newsl. 37:233-234. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:61-62.
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BGS 186, Slender dwarf 3, sld3
Stock number: BGS 186 Locus name: Slender dwarf 3 Locus symbol: sld3 Previous nomenclature and gene symbolization:
Anthocyanin-free = ant-567 (6). Proanthocyanidin-free 17.567 = ant17.567 (5). Slender dwarf e = sld.e (4).
Inheritance: Monofactorial recessive (2). Located in chromosome 4HS (3), based on linkage drag with the int-c (intermedium spike-c) locus (3); associated SNP markers 1_0208 to 2_0777 (positions 5.24 to 40.15 cM) in 4HS of the Bowman backcross-derived line BW863 (1).
Description: The mutant gene sld3.e was isolated as a second mutant in the stock ant17.567 (proanthocyanidin-free 17) (2). Plants show reduced vigor and are about 3/4 normal height. The number of spikelets per spike is about 3/4 that of normal sibs and kernels are slightly smaller. Rachis internodes can be slightly longer and grain yields are about 3/4 of normal. The Bowman backcross-derived line BW863 for sld3.e did not show a reduction in anthocyanin pigmentation or a large reduction in kernel size (2). Plants of BW863 were about 10% shorter than Bowman and peduncles were about 20% shorter. Rachis nodes were slightly longer and kernels per spike can be reduced up to 20% in some environments. Kernels were slightly shorter and thinner than those of Bowman and seed weights were 10 to 15% less. Grain yields were slightly reduced compared to those of Bowman (2).
Origin of mutant: A sodium azide induced mutant isolated with ant-567 in Manker (CIho 15549) (6).
Mutational events: sld3.e in ant17.567 as a mutant stock from Manker (DWS1050) (2).
Mutant used for description and seed stocks: sld3.e in Bowman/ant17.567 (GSHO 2480); sld3.e in Bowman (PI 483237)*7 (GSHO 1998, BW863, NGB 22300).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Franckowiak, J.D. 1995. Notes on linkage drag in Bowman backcross derived lines of spring barley. Barley Genet. Newsl. 24:63-70. 4. Franckowiak, J.D. 1999. Coordinator’s report: Semidwarf genes. Barley Genet. Newsl. 29:74-79. 5 Jende-Strid, B. 1988. Coordinator's report: Anthocyanin genes. Stock list of ant mutants kept at the Carlsberg Laboratory. Barley Genet. Newsl. 18:74-79. 6. Ullrich, S.E. 1983. (Personal communications).
Prepared:
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J.D. Franckowiak. 2002. Barley Genet. Newsl. 32:101. Revised:
J.D. Franckowiak. 2007. Barley Genet. Newsl. 37:243. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:63-64.
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BGS 189, Accordion rachis 2, Acr2
Stock number: BGS 189 Locus name: Accordion rachis 2 Locus symbol: Acr2 Previous nomenclature and gene symbolization:
Lax spike = lax (4, 9, 11). Accordion rachis = acr (7, 9, 12). Accordion rachis 1 = acr1.a (6). Accordion rachis b and c = acr.b, acr.c (3, 5). Laxatum spike stocks = Lax.aa, Lax.ab, Lax.am, lax.ao, (5, 12).
Inheritance: Monofactorial incomplete dominant for lax spike, one of three factors required for expression of accordion rachis trait (5, 12). Located in chromosome 4HL; associated with SNP markers 1_0123 to 2_1018 (positions 158.82 to 183.54 cM) in 4HL of the Bowman backcross-derived lines BW445; Bowman backcross-derived lines BW007, BW008, BW009, BW439, BW444, and BW456 have identical heterogeneous SNP markers in 4HL, but their segments from the donor parent are longer than those of BW445 (3), in 4H bin 11 or 12.
Description: Rachis internodes are elongated and kernels appear longer than normal. The Acr2 gene is in the second of three chromosomal regions associated with expression of the accordion rachis trait in Bowman backcross-derived lines BW009 and BW439. The long rachis internode trait was specifically added to the original accordion rachis stock by R.I. Wolfe (12). Characteristics associated with variants at the Acr2 locus are difficult to determine because only the Bowman backcross-derived line BW444 (Lax.aa or Acr2.aa) did not have more than one chromosome segment from its donor parent (3). Rachis internodes of BW444 plants were about 30% longer, 4.6 vs. 3.5 mm, than those of Bowman. Leaf blades were slightly longer and wider. Kernels were slightly longer and heavier, 61 vs. 58 mg. Grain yields were equal or slightly more than those of Bowman. The donor parent (FN280) of the BW444 line traces to the lines developed by M.L. Martini and H.V. Harlan (8) in Idaho via crosses to six-rowed barley made by D.C. Rasmusson (10). The Bowman backcross-derived lines BW007 (Acr2.b2) and BW008 (Acr2.c2) had the identical segment of chromosome 4HL plus a 1H segment retained from their donor parents; however, the 1H segments in these lines differed for SNP marker patterns (3). The Bowman lines BW007 and BW008 were 10 to 15% taller than Bowman. The rachis internodes of BW007 were about 25% longer than those of Bowman, 4.7 vs. 3.7 mm., Burma Girl (GSHO 1071, Acr2.b2), the original stock for BW007, has several sterile rachis nodes at the base of the spike before spikelet development is initiated (4). BW007 had kernel weights that varied across experiments from smaller to slightly larger than those of Bowman. The rachis internodes of BW008 were nearly twice as long as those of Bowman, 6.8 vs. 3.7 mm, but they did not show the accordion-like bending associated with the accordion phenotype. Kernels of the BW008 line were slightly longer and heavier than those of Bowman (5). Two other Bowman backcross-derived lines, BW439 and BW456, have the 4HL SNP pattern associated with the Acr2 locus. Both originate from the same donor stock AB1398 (GSHO 1115) from Aberdeen, Idaho and are assigned the gene symbol Acr2.am. BW456 was selected based on lax spikes while BW439 was selected based on tall plants (5).
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Origin of mutant: A naturally occurring deviant possibly in Long Rachis Internode (CIho 6164), developed by M.L. Martini and H.V. Harlan (8), or Burma Girl (CIho 14831), donated to the USDA Small Grains Collection by G.A. Wiebe. The Acr2 gene has been incorporated into several genetic stocks from that source.
Mutational events: Acr2.b2 in Burma Girl (CIho 14831, GSHO 1071) (5, 12); Acr2.aa in FN280 (GSHO 1572) (5, 10); Acr2.a2 in ACBV89B229 (GSHO 1617) and Acr2.ab from ACBV89B232 (GSHO 1573) (12); Acr2.c2 in T188 (GSHO 1480) from R.W. Woodward (2); Acr2.am in AB 1398 [GSHO 1115, likely CIho 14785 from G.A. Wiebe (1)]; all alleles may have been derived from one stock (3, 5).
Mutant used for description and seed stocks: Acr2.aa in FN280 (GSHO 1572), Acr2.b2 in Burma Girl (GSHO 1071), Acr2.a2 in ACBV89B229 (GSHO 1617); Acr2.c2 in T188 (GSHO 1480); Acr2.am in AB 1398 (GSHO 1115); Acr2.a2 from ACBV89229 in Bowman*4 (GSHO 1899), in Bowman*7 (BW009, NGB 20417 and BW439, NGB 20671); Acr2.aa from FN280 in Bowman*4 (GSHO 2276), in Bowman*5 (BW444, NGB 20676); Acr2.ab from ACBV89B232 (GSHO 1573) in Bowman*4 (GSHO 2277), in Bowman*6 (BW445, NGB 20677); Acr2.b2 from Burma Girl in Bowman *2 (GSHO 1898), in Bowman*5 (BW007, NGB 20415); Acr2.c2 from T188 in Bowman*6 (BW008, NGB 20416); Acr2.am from AB 1398 in Bowman*4 (BW456, NGB 20688).
References: 1. Bockelman, H. http://www.ars-grin.gov/cgi-bin/npgs/acc/display.pl?1068768. 2. Doney, D.L. 1961. An inheritance and linkage study of barley with special emphasis on purple pigmentation of the auricle. M.S. Thesis. Utah State Univ., Logan. 3. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 4. Enns, H. 1961. Inheritance and linkage studies in barley using chromosomal interchanges and marker stocks. Ph.D. Thesis. Univ. Saskatchewan. pp. 70. 5. Franckowiak, J.D. (Unpublished). 6. Franckowiak J.D. 2001. BGS 97, Accordion rachis 1, acr1. Barley Genet. Newsl. 32:85. 7. Haus, T.E. 1957. Inheritance of rachis internode length and an abnormal rachis type in barley. Dissertation Abstr. 49:179-180. 8. Martini, M.L., and H.V. Harlan. 1942. Barley freaks. J. Hered. 33:339-342. 9. Nilan, R.A. 1964. The cytology and genetics of barley, 1951-1962. Monogr. Suppl. 3, Res. Stud. Vol. 32, No. 1. Washington State Univ. Press, Pullman. 10. Rasmusson, D.C. (Personal communications). 11. Smith, L. 1951. Cytology and genetics of barley. Bot. Rev. 17:1-55, 133-202, 285-355. 12. Wolfe, R.I. 1990. (Personal communications).
Prepared: J.D. Franckowiak 2010. Barley Genet. Newsl. 40:65-66.
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BGS 190, Thick filament 1, tfm1
Stock number: BGS 190 Locus name: Thick filament 1 (male sterile genetic) Locus symbol: tfm1 Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (2). Located in chromosome 1HL (1); associated with SNP markers 2_0603 to 2_0915 (positions 199.04 to 202.94 cM) in 1HL of a heterozygous plant from the Bowman backcrossed-derived line BW877 (1), in 1H bin 14.
Description: The filaments supporting the anthers are much thicker (sheath-like) than normal, having a stalk-like appearance and a light green color. Since the filaments do not elongate, the mutant plants are largely male-sterile. Pollen fertility is apparently normal because mutant segregates will set a few seeds. Besides very poor seed, tfm1 plants in Bowman backcross-derived line BW877 appeared normal (2).
Origin of mutant: A spontaneous mutant in the Volla (PI 280423) induced mutant 7060 backcrossed twice to Bowman (PI 483237) (2).
Mutational events: tfm1.a in 7060/2*Bowman from Volla (2).
Mutant used for description and seed stocks: tfm1.a from Volla (7060/2*Bowman), in Bowman (PI 483237)*7 (BW877, NGB 22311).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished).
Prepared: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:67.
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BGS 191, Chlorina seedling 17, fch17
Stock number: BGS 191 Locus name: Chlorina seedling 17 Locus symbol: fch17 Previous nomenclature and gene symbolization:
Very yellow 3 = vy3 (3). Chlorina seedling vy = fch.vy (3).
Inheritance: Monofactorial recessive (2). Located in chromosomes 1HL or 3HL (1), associated with SNP markers 1_0830 to 2_0940 (positions 130.68 to about 179 cM) in 1HL and SNP markers 2_0130 to 1_0343 (positions 151.97 to 255.13 cM) in 3HL of the Bowman backcrossed-derived line BW344 (1).
Description: Seedlings are pale yellow with a slight mottled type streaking and vigor is poor. The second leaf blade is chlorotic with the tip gradually turning green. Mature plants are normal green and have apparently normal vigor (3). In the Bowman backcross-derived line BW344, heading date was delayed by about 9 days compared to Bowman and grain yields were 50 to 70% of normal. Other morphological traits of BW344 plants were similar to those of Bowman (2). A new gene symbol is assigned to the vy3 mutant because no other chlorina mutant with a similar phenotype, except fch7, is associated with either 1HL or 3HL (1, 2).
Origin of mutant: A spontaneous mutant in Himalaya X Ingrescens (GSHO 681) (3).
Mutational events: fch17.vy (E 37-517, NSL 30243, GSHO 1079) in Himalaya X Ingrescens (2, 3).
Mutant used for description and seed stocks: fch17.vy from Himalaya X Ingrescens (GSHO 1079) in Bowman (PI 483237)*5 (BW344, NGB 22139).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Hang, A. 1995. List of genetic stocks in barley arranged in numerical order of BGS (Barley Genetic Stock) numbers. USDA-ARS National Small Grains Germplasm Research Facility, Aberdeen, ID 83210. (Notes from T. Tsuchiya on the collection of barley genetic stocks at Colorado State University and see Tsuchiya T. 1984. List of genetic stocks with BGS numbers. Barley Genet. Newsl. 14:100-139.)
Prepared: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:68.
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BGS 203, Black lemma and pericarp 1, Blp1
Stock number: BGS 203 Locus name: Black lemma and pericarp 1 Locus symbol: Blp1 Previous nomenclature and gene symbolization:
Black lemma and caryopsis = B (8). Black pericarp = Bk (1). Black lemma and pericarp = B (9).
Inheritance: Monofactorial dominant (1, 6, 8). Located in chromosome 1HL (5, 7), about 16.0 cM proximal from the trd1 (third outer glume 1) locus (5); about 8.8 cM proximal from RFLP marker ABC261 in 1H bin 13 (2); associated with SNP markers 2_0959 to 2_0603 (positions 173.49 to 199.04 cM) in 1HL of the Bowman backcross-derived line BW062 and SNP marker 2_0940 (about position 179 cM) in 1HL of the Bowman backcross-derived line BW060 (3), in 1H bin 13.
Description: Black pigmentation of the lemma and pericarp develops slightly before maturation of the spike. Pigmented organs may include all parts of the spike, awns, the upper portion of the stem, and upper leaves. The intensity of pigmentation associated with each of the dominant alleles at the Blp1 locus is characteristic of that allele, and is relatively stable over environments (9). Black seed is produced by melanin-like pigment in the pericarp (1). Woodward (9) reports that the dominance ranking of alleles at the Blp1 locus is related to the intensity of black pigmentation they confer, with the Blp1.b (B) allele conferring extreme black pigmentation. The Blp1.mb (Bmb) allele is associated with medium black and a reduced distribution pattern; and the Blp1.g (Bg) allele is associated with light black or gray coloration (9, 10). In the Bowman backcross-derived lines for the Blp1 locus, BW060 and BW062, the expression of other morphological traits appeared similar to those of Bowman (4).
Origin of mutant: Natural occurrence in several cultivars (8, 9).
Mutational events: Blp1.b (B) in Hordeum distichon var nigrinudum No 1 (GSHO 988) (9); Blp1.mb (Bmb) in CIho 2970 (GSHO 226) (9); Blp1.g (Bg) in Blackhull (CIho 878, GSHO 199) and Black Smyrna (CIho 191, GSHO 222) (9).
Mutant used for description and seed stocks: Blp1.b in Hordeum distichon var nigrinudum No 1 (GSHO 988); Blp1.b from R.I. Wolfe's Multiple Dominant Marker Stock (GSHO 1580) in Bowman (PI 483237)*8 (GSHO 2054, BW062, NGB 20470); likely Blp1.g from a Composite Cross in Bowman *5 (BW060, NGB 20468).
References: 1. Buckley, G.F.H. 1930. Inheritance in barley with special reference to the color of the caryopsis and lemma. Sci. Agric. 10:460-492. 2. Costa, J.M., A. Corey, M. Hayes, C. Jobet, A. Kleinhofs, A. Kopisch-Obusch, S.F. Kramer, D. Kudrna, M. Li, O. Piera-Lizaragu, K. Sato, P. Szues, T. Toojinda, M.I. Vales, and R.I. Wolfe. 2001. Molecular mapping of the Oregon Wolfe Barleys: a phenotypically polymorphic doubled-haploid population. Theor. Appl. Genet. 103:415-424. 3. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010.
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Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 4. Franckowiak, J.D. (Unpublished). 5. Ivanova, K.V. 1937. A new character in barley "third outer glume" — Its inheritance and linkage with color of the flowering glumes. Bull. Appl. Bot., Genet., & Pl. Breed. II. 7:339-353. 6. Robertson, D.W. 1929. Linkage studies in barley. Genetics 14:1-36. 7. Robertson, D.W., G.A. Wiebe, R.G. Shands, and A. Hagberg. 1965. A summary of linkage studies in cultivated barley, Hordeum species: Supplement III, 1954-1963. Crop Sci. 5:33-43. 8 Tschermak, E. von. 1901. Über Züchtung neuer Getreiderassen mittelst künstlicher Kreuzung. Kritisch-historische Betrachtungen. Zeitschrift für das landwirtschaftliche Versuchswesen Oesterreich 4:1029-1060. 9. Woodward, R.W. 1941. Inheritance of melanin-like pigment in the glumes and caryopses of barley. J. Agric. Res. 63:21-28. 10. Woodward, R.W. 1942. Linkage relationships between the allelomorphic series, B, Bmb, Bg, and Atat factors in barley. J. Amer. Soc. Agron. 34:659-661.
Prepared: T.E. Haus and T. Tsuchiya. 1971. Barley Genet. Newsl. 1:148.
Revised: J.D. Franckowiak and U. Lundqvist. 1997. Barley Genet. Newsl. 26:209. J.D. Franckowiak. 2007: Barley Genet. Newsl. 37:245-246. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:69-70.
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BGS 220, Chlorina seedling 3, fch3
Stock number: BGS 220 Locus name: Chlorina seedling 3 Locus symbol: fch3 Previous nomenclature and gene symbolization:
Chlorina seedling 3 = f3 (3). Inheritance:
Monofactorial recessive (3, 4). Located in chromosome 1HS (4, 5, 6, 7), near the tip of 1HS associated with SNP markers 2_0479 to 3_0969 (at position 0.0 cM) in 1HS of the Bowman backcross-derived line BW359 (1), in 1H bin 01.
Description: Seedlings have bright yellow leaves, which gradually change color to a light green as the plant grows. Plants are vigorous, but remain chlorina or light green until maturity. Plants expressing the fch3.d gene can be distinguished readily from normal plants at all stages of growth (3, 4). Heading of plants in the Bowman backcross-derived line BW359 was delayed by 5 to 8 days, plants were about 3/4 of normal height, seeds were 10 to 20% lighter, and seed yields were less than 1/2 of normal (2).
Origin of mutant: A spontaneous mutant in an unknown six-rowed cultivar (3).
Mutational events: fch3.d in an unknown cultivar (Minn 89-4, GSHO 851) (3).
Mutant used for description and seed stocks: fch3.d in an unknown cultivar (GSHO 851); fch3.d in Bowman (PI 483237)*6 (GSHO 2033); fch3.d in Bowman*7 (BW359, NGB 20598).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Immer, F.R., and M.T. Henderson. 1943. Linkage studies in barley. Genetics 28:419-440. 4. Shahla, A., and T. Tsuchiya. 1978. Trisomic analysis of the gene f3 for chlorina 3. Barley Genet. Newsl. 8:89-90. 5. Shahla, A., and T. Tsuchiya. 1984. Genetic studies with acrotrisomic 5S5L in barley. Barley Genet. Newsl. 14:9-11. 6. Shahla, A., and T. Tsuchiya. 1985. Further information in telotrisomic analysis in barley. Barley Genet. Newsl. 15:26-27. 7. Wang, S. 1995. Association of the chlorina gene f3 with chromosome arm 5S in barley. Heredity 86:151-152.
Prepared: A. Shahla and T. Tsuchiya. 1979. Barley Genet. Newsl. 9:132.
Revised: J.D. Franckowiak and A. Hang. 1997. Barley Genet. Newsl. 26:218. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:71.
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BGS 223, Zebra stripe 3, Zeb3
Stock number: BGS 223 Locus name: Zebra stripe 3 Locus symbol: Zeb3 Previous nomenclature and gene symbolization:
Zoned leaf c = zbc (2, 4, 5, 6, 9). Zebra stripe c = zbc (6, 7). Zoned leaf c2 = zbc2 (2, 4, 5). Zebra stripe c2 = zbc2 (6). Zebra stripe 3 = zb3 (7).
Inheritance: Monofactorial incomplete dominant (2, 8, 9). Located in chromosome 1HL (2, 4); associated with SNP markers 1_0275 to 2_0997 (positions 63.72 to 89.01 cM) in 1H of a heterozygous plant from the Bowman backcross-derived line BW932 (1), in 1H bin 08.
Description: Early leaves of homozygous plants have bright yellow bands across a light yellow background when grown under alternating temperatures, warm day and cool night (2). Later leaves have patches of bright yellow. Cool temperatures enhance the yellow banding while warm temperatures increase green pigments. Under very cold conditions, leaves become yellowish white and deteriorate. Heterozygotes have slightly pale green color compared to normal plants (2). The Zeb3.c gene must be maintained as a heterozygous stock because seed production on mutant plants is rare.
Origin of mutant: A spontaneous mutant from the collection of genetic stocks maintained by Woodward (2, 5).
Mutational events: Zeb3.c (GSHO 1451) in an unknown cultivar (Utah 41, Alb Acc 43) (2, 3 ,5).
Mutant used for description and seed stocks: Zeb3.c in Utah 41 (GSHO 1451); Zeb3.c in Bowman (PI 483237)*3 (GSHO 2057), in Bowman*7 (BW932, NGB 22361).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Furst, E., and T. Tsuchiya. 1983. Primary trisomic analysis of three mutant genes in barley. Barley Genet. Newsl. 13:44-46. 3. Kasha, K.J., and G.W. Walker. 1960. Several recent barley mutants and their linkages. Can. J. Genet. Cytol. 2:397-415. 4. Shahla, A., and T. Tsuchiya. 1984. Additional information on the association of zbc2 for zoned leaf with chromosome 5. Barley Genet. Newsl. 14:10-11. 5. Tsuchiya, T. 1975. Allelic relationships of some morphological and chlorophyll mutants in barley. Barley Genet. Newsl. 5:64-67. 6. Tsuchiya, T. 1983. Proposed new gene symbol for two different mutant types for zebra Colorado, or zoned leaf. Barley Genet. Newsl. 13:84. 7. Tsuchiya, T. 1984. Zebra striped leaves: Problems in gene and stock designation and proposed new symbols for zoned or zebra mutants in barley. Barley Genet. Newsl.
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14:21-24. 8. Tsuchiya, T., and R. Baldivia. 1981. Primary trisomic analysis of an incomplete dominant zebra mutant, zbc, in barley. Barley Genet. Newsl. 11:63-64. 9. Woodward, R.W. 1957. Linkages in barley. Agron. J. 49:28-32.
Prepared: T. Tsuchiya and A. Shahla. 1984. Barley Genet. Newsl. 14:94 as BGS 223, Zoned leaf 3 or zebra striped leaf 3.
Revised: J.D. Franckowiak and A. Hang. 1997. Barley Genet. Newsl. 26:221. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:72-73.
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BGS 224, Erectoides-b, ert-b
Stock number: BGS 224 Locus name: Erectoides-b Locus symbol: ert-b Previous nomenclature and gene symbolization:
Erectoides-2 = ert-2 (3, 5). Inheritance:
Monofactorial recessive (3, 4). Located in chromosome 1HL (9, 10, 11, 12, 13); slightly distal from the cer-e (eceriferum-e) locus (6, 13, 14); about 19.3 cM proximal from the nec1 (necrotic leaf spot 1) locus (7); associated with SNP markers 1_0259 to 1_0520 (positions 70.78 to 82.35 cM) in 1HL of the Bowman backcross-derived line BW304 (1), likely in 1H bin 08.
Description: Spikes have a compact appearance caused by a reduction in rachis internode length with rachis internode length values from 1.9 to 2.3 mm. Culms are shorter than those of parental cultivars (12). GA3 treatment of plants as the flag leaf emerges decreased spike density (15). Plants of the Bowman backcross-derived line had slightly shortened peduncles and were about 5/6 of normal height. Rachis internode lengths were 2.9 vs. 3.7 mm. Kernels were slightly shorter and wider and weights were often about 10% higher. Grain yields were about 3/4 of normal (2).
Origin of mutant: An X-ray induced mutant in Gull (CIho 1145, GSHO 466) (3, 4, 5).
Mutational events: ert-b.2 (NGB 112606, GSHO 470), -b.4 (NGB 112607), -b.5 (NGB 112608), -b.9 (NGB 112611) in Gull (4); ert-b.128 (NGB 112727), -b.151 (NGB 112750) in Bonus (PI 189763) (12); ert-b.174 (NGB 112775) in Bonus, -b.333 (NGB 112848) in Foma (CIho 11333) (8); ert-b.354 (NGB 112870), -b.394 (NGB 112911) in Foma (12).
Mutant used for description and seed stocks: ert-b.2 in Gull (GSHO 470, NGB 112606); ert-b.2 in Bowman (PI 483237)*7 (GSHO 2049, BW304, NGB 20586).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Gustafsson, Å. 1947. Mutations in agricultural plants. Hereditas 33:1-100. 4. Hagberg, A., Å. Gustafsson, and L. Ehrenberg. 1958. Sparsely contra densely ionizing radiations and the origin of erectoid mutants in barley. Hereditas 44:523-530. 5. Hagberg, A., N. Nybom, and Å. Gustafsson. 1952. Allelism of erectoides mutations in barley. Hereditas 38:510-512. 6. Jensen, J. 1974. Coordinator's report: Chromosome 5. Barley Genet. Newsl. 4:102-106. 7. Jensen. J. 1981. Location of the high-lysine locus Lys4d on barley chromosome 5. Barley Genet. Newsl. 11:45-47. 8. Lundqvist, U. (Unpublished). 9. Persson, G. 1969. An attempt to find suitable genetic markers for the dense ear loci in barley I. Hereditas 62:25-96.
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10. Persson, G. 1969. An attempt to find suitable genetic markers for the dense ear loci in barley II. Hereditas 63:1-28. 11. Persson, G., and A. Hagberg. 1965. Localization of nine induced mutations in the barley chromosomes. Barley Newsl. 8:52-54. 12. Persson, G., and A. Hagberg. 1969. Induced variation in a quantitative character in barley. Morphology and cytogenetics of erectoides mutants. Hereditas 61:115-178. 13. Søgaard, B. 1971. Linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 1:41-47. 14. Søgaard, B. 1973. Continued linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 3:57-61. 15. Stoy, V., and A. Hagberg. 1967. Effects of growth regulators on ear density mutants in barley. Hereditas 58:359-384.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:222.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:74-75.
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BGS 225, Curled leaf dwarf 1, clh1
Stock number: BGS 225 Locus name: Curled leaf dwarf 1 Locus symbol: clh1 Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (4). Located in chromosome 7HL or 5HL (1), based on SNP markers retained in Bowman backcross-derived line BW182 with SNP markers 1_1243 to 2_0365 (positions 167.56 to 229.66 cM) in 7HL and SNP markers 1_1456 to 2_1177 (positions 195.82 to 203.85 cM) in 5HL (1); previously located in chromosome 1HL (3, 4), about 7.0 cM from the msg1 (male sterile genetic 1) locus (4);
Description: Leaf blades are erect, narrow and folded inward and appear thicker than normal. Plants show reduced vigor, fertility, and height (3/4 of normal) when grown in the greenhouse; further reduction in vigor and fertility is observed when mutants are grown in the field. Spikes emerge poorly from the boot (2). Plants of the Bowman backcross-derived line BW182 were 30 to 40% shorter than Bowman. Kernels were slightly thinner and were about 2/3 normal weight. Plants produced very little grain (2).
Origin of mutant: A neutron induced mutant in Hannchen (PI 10585) (4).
Mutational events: clh1.a (GSHO 1212) in Hannchen (4).
Mutant used for description and seed stocks: clh1.a in Hannchen (GSHO 1212); clh1.a in Bowman (PI 483237)*2 (GSHO 2051), in Bowman*5 (BW182, NGB 22014).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Kasha, K.J. 1977. Coordinator's report: Chromosome 6. Barley Genet. Newsl. 7:89-90. 4. Ramage, R.T. 1962. Genetic and cytogenetic studies of barley. Barley Newsl. 6:67.
Prepared: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:223.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:76.
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BGS 226, Revoluted leaf 1, rvl1
Stock number: BGS 226 Locus name: Revoluted leaf 1 Locus symbol: rvl1 Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (2). Located in chromosome 1HL (2, 4), proximal from the trd1 (third outer glume 1) locus, and distal from the abo1 (albino seedling 1) locus (2); associated with SNP markers 1_0764 to 1_1006 (positions 61.55 to 110.10 cM) in 1H of the Bowman backcrossed-derived line BW763 (1), in 1H bins 08 to 10.
Description: Tips of young leaf blades tend to roll into a tube through a counter-clockwise spiral, compared to flat surfaces of the control. Segregates can be scored from the three-leaf stage until near maturity (2). Mutant plants of the Bowman backcross-derived line BW763 were 75 to 90% of normal height and peduncle lengths varied from slightly reduced to 2/3 of normal. Kernel weights were slightly lower and grain yields approached normal (3).
Origin of mutant: An X-ray induced mutant in Hakata 2 (OUJ807, PI 263407) (2).
Mutational events: rvl1.a in Hakata 2 (Kmut 103, GSHO 608) (2, 4).
Mutant used for description and seed stocks: rvl1.a in Hakata 2 (GSHO 608); rvl1.a from Hakata 2 in Bowman (PI 483237)*1 (GSHO 2319, in Bowman*5 (BW763, NGB 22231).
References: 1 Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010, Genetic Dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Fedak, G., T. Tsuchiya, and S.B. Helgason. 1972. Use of monotelotrisomics for linkage mapping in barley. Can. J. Genet. Cytol. 14:949-957. 3. Franckowiak, J.D. (Unpublished). 4. Tsuchiya, T., and R.L. Haines. 1975. Trisomic analysis of nine mutant genes in barley. Barley Genet. Newsl. 5:67-69.
Prepared: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:224.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:77.
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BGS 227, Small lateral spikelet 1, sls1
Stock number: BGS 227 Locus name: Small lateral spikelet 1 Locus symbol: sls1 Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (3). Located in chromosome 1HL (3), closely linked to the msg1 (male sterile genetic 1) locus (3); associated with SNP markers 1_0933 to 3_0343 (positions 82.35 to 87.19 cM) in 1HL) of the Bowman backcross-derived line BW867 (1), in 1H bin 08.
Description: Sterile lateral spikelets become progressively smaller toward the tip of two-rowed spikes in plants, which express the Vrs1.b and int-c.b alleles at the six-rowed spike 1 and intermedium spike-c loci, respectively. The terminal rachis nodes generally have rudimentary lateral spikelets. Expression of the sls1 is affected by genetic background, but express is often stronger in late tillers. The trait can be observed only in two-rowed segregates from crosses between six- and two-rowed cultivars. No significant differences in agronomic traits were observed between backcross-derived BW867 and Bowman, but kernels tended to be wider and heavier and test weights are slightly higher (2).
Origin of mutant: Natural occurrence in six-rowed cultivars derived from Manchurian introductions, but it can not be observed visually in six-rowed barley cultivars.
Mutational events: sls1.a in MSS005 [msg1.ca from CIho 5368 in Betzes (PI 129430)*11 (GSHO 1810)], sls1.a (GSHO 2492) in Morex (CIho 15773).
Mutant used for description and seed stocks: sls1.a in Morex (CIho 15773, GSHO 2492); sls1.a from MSS005 in Bowman (PI 483237)*8 (GSHO 2034, BW867, NGB 22304).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Franckowiak, J.D. 1995. Notes on linkage drag in Bowman backcross derived lines of spring barley. Barley Genet. Newsl. 24:63-70.
Prepared: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:225.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:78.
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BGS 228, Subcrown internode length 1, Sil1
Stock number: BGS 228 Locus name: Subcrown internode length 1 Locus symbol: Sil1 Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial incomplete dominant (1). Located in chromosome 1H (4), based on linkage drag with the sls1 (small lateral spikelet 1) locus (4); associated with SNP markers 1_0259 to 1_0890 (positions 70.78 to 110.10 cM) in the 1H centromeric region of the Bowman backcross-derived line BW852 (2), in 1H bin 08 or 09.
Description: Plants have relatively short subcrown internodes, 0.0 to 1.0 cm, when planted 9 cm deep in vermiculite. Planting depth and subcrown internode length determine the position of the crown in relation to the soil surface (1). Plants with a deeper crown placement show higher levels of winter survival (5). In generating the Bowman backcross-derived line, the Sil1 gene showed a dominant inheritance pattern. No other morphological effects for the Sil1.a gene were noted in Bowman backcross-derived line BW852 (3).
Origin of mutant: Natural occurrence in NE 62203 (CIho 15542), a selection of unknown origin (1).
Mutational events: Sil1.a (GSHO 1604) in winter barley NE 62203 (1).
Mutant used for description and seed stocks: Sil1.a in NE 62203 (GSHO 1604); Sil1.a in Bowman (PI 483237)*5 (GSHO 2032), Sil1.a in Bowman*7 (BW852, NGB 22289).
References: 1. Dofing, S.M., and J.W. Schmidt. 1984. Inheritance of subcrown internode length in a winter barley cross. Crop Sci. 24:692-694. 2. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 3. Franckowiak, J.D. (Unpublished). 4. Franckowiak, J.D. 1995. Notes on linkage drag in Bowman backcross derived lines of spring barley. Barley Genet. Newsl. 24:63-70. 5. Kail, R.M., B.J. Kalp, and K.E. Bohenenblust. 1972. Influence of temperature on crown depth development of winter barley. Crop Sci. 12:872-874.
Prepared: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:226.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:79.
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BGS 232, High lysine 4, Lys4
Stock number: BGS 232 Locus name: High lysine 4 Locus symbol: Lys4 Previous nomenclature and gene symbolization:
Shrunken endosperm xenia 5 = sex5g (8). Inheritance:
Monofactorial incomplete dominant (1, 5). Located in chromosome 1HS (5, 6, 8), over 35.1 cM distal from the ert-b (erectoides-b) locus (6); associated with SNP markers 2_0373 to 1_0744 (positions 0.0 to 39.84 cM) in 1HS of the Bowman backcross-derived line BW497 (3), in 1H bins 01 to 03.
Description: At the hard dough stage, kernels homozygous for the Lys4.d gene develop a depression near the center of the lemma, which becomes progressively more distinct as the kernels mature. Grain produced by mutant plants has a 9% increase in lysine content (1, 2). Shrunken endosperm has a pleiotropic association with the high lysine gene Lys4.d (5). Kernels heterozygous at the Lys4 locus may develop a slightly less distinct depression on the dorsal side (5). Maintenance of Lys4.d stocks may be difficult because outcrosses are not recognized easily. Plants of Bowman backcross-derived line BW497 were slightly shorter and kernel weights and grain yields were about 2/3 of normal (4).
Origin of mutant: An ethyl methanesulfonate induced mutant in Bomi (PI 43371) (2).
Mutational events: Lys4.d in Bomi (Risø 8, GSHO 2475) (1, 2, 7).
Mutant used for description and seed stocks: Lys4.d in Bomi (GSHO 2475); Lys4.d in Bowman (PI 483237)*5 (GSHO 2035, BW497, NGB 20725).
References: 1. Doll, H. 1976. Genetic studies of high lysine barley mutants. p. 542-546. In H. Gaul (ed.) Barley Genetics III. Proc. Third Int. Barley Genet. Symp., Garching, 1975. Verlag Karl Thiemig, München. 2. Doll, H., B. Køie, and P.O. Eggum. 1974. Induced high-lysine mutants in barley. Radiat. Bot. 14:73-80. 3. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 4. Franckowiak, J.D. (Unpublished). 5. Jensen, J. 1979. Chromosomal location of one dominant and four recessive high-lysine genes in barley mutants. Vol. 1. p. 89-96. In Seed Protein Improvement in Cereals and Grain Legumes. Proc. Int. Symp., Neuherberg, Germany, 1978. Int. Atomic Energy Agency, Vienna. 6. Jensen, J. 1981. Location of the high-lysine locus Lys4d on barley chromosome 5. Barley Genet. Newsl. 11:45-47. 7. Jensen, J., and H. Doll. 1979. Gene symbols for barley high-lysine mutants. Barley Genet. Newsl. 9:33-37. 8. Ullrich, S.E., and R.F. Eslick. 1978. Chromosome location evidence for Risø induced high lysine shrunken endosperm mutants of barley. Barley Genet. Newsl. 8:114-125.
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Prepared: J.D. Franckowiak and U. Lundqvist. 1997. Barley Genet. Newsl. 26:230.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:80-81.
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BGS 238, Breviaristatum-t, ari-t
Stock number: BGS 238 Locus name: Breviaristatum-t Locus symbol: ari-t Previous nomenclature and gene symbolization:
Breviaristatum-25 = ari-25 (3). Inheritance:
Monofactorial recessive (2, 4). Located in chromosome 1H (1); associated with SNP markers between 1_0744 to 1_1326 (positions 39.84 to 82.35 cM) in 1H of the Bowman backcross-derived line BW032 (1), in 1H bins 05 to 08.
Description: The awns of ari-t plants are 2/3 of normal length and slightly curly. Peduncles are coiled and less than half normal length and plants are 1/2 to 2/3 normal height (4, 5). In the Bowman backcross-derived line BW032, leaf blades were shorter and narrower than those of Bowman. Kernels were shorter and narrower, seed weights were about 20% lower, and seed yields were about 1/4 of normal (2). A locus name was assigned based on the unique phenotype and lack of other breviaristatum mutants located in 1H.
Origin of mutant: An ethylene oxide induced mutant in Bonus (PI 189763) (4, 5).
Mutational events: ari-t.25 (NGB 115673) in Bonus (PI 189763, NGB 14657) (5).
Mutant used for description and seed stocks: ari-t.25 in Bonus (NGB 115673); ari-t.25 in Bowman (PI 483237)*5 (BW032, NGB 20440).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Gustafsson, Å, A. Hagberg, U. Lundqvist and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 4. Kucera, J., U. Lundqvist, and Å. Gustafsson. 1975. Inheritance of breviaristatum mutants in barley. Hereditas 80:263-278. 5. Lundqvist, U. (Unpublished).
Prepared: J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:82.
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BGS 239, Scirpoides-b, sci-b
Stock number: BGS 239 Locus name: Scirpoides-b Locus symbol: sci-b Previous nomenclature and gene symbolization:
Scirpoides-1 = sci-4 (3). Inheritance:
Monofactorial recessive (2). Located in chromosomes 1H or 6H (1), based on SNP markers retained in the Bowman backcross-derived line BW771 with markers between 1_0259 to 2_0780 (positions 70.78 to 154.89 cM) in 1H and between 1_0061 and 2_0118 (positions 70.15 to 156.09 cM) in 6H (1).
Description: Plants expressing the sci-b gene have narrow leaves and lower leaf blades are folded inward (4). In the Bowman backcross-derived line BW771, rachis internodes were slightly elongated. Plant heights were 2/3 to almost normal, kernels were slightly smaller and lighter, and seed yields were about 3/4 of normal (2). Based on differences in morphology compared to the sci-a (scirpoides-a) mutants and different chromosomal segments retained in their Bowman backcross-derived lines (1), a new locus name is suggested.
Origin of mutant: A neutron induced mutant in Bonus (PI 189763) (3).
Mutational events: sci-b.4 (NGB 117099) in Bonus (4).
Mutant used for description and seed stocks: sci-b.4 in Bonus (NGB 117099), sci-b.4 in Bowman (PI 483237)*2 (BW771, NGB 22239).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 4. Lundqvist, U. (Unpublished).
Prepared: J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl 40:83.
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BGS 240, Semidwarf 6, sdw6
Stock number: BGS 240 Locus name: Semidwarf 6 Locus symbol: sdw6 Previous nomenclature and gene symbolization:
Semidwarf f = sdw.f (2). Inheritance:
Monofactorial recessive (4). Location in chromosomes 1H or 7H (1), based on SNP markers retained in the Bowman backcross-derived line BW806 with markers between 1_0764 to 1_0075 (positions 61.55 to 82.35 cM) in 1H and between 2_1270 and 1_1219 (positions 93.97 to 107.44 cM) in 7H (1).
Description: Plants with the sdw6.f gene are 10 to 20% shorter than normal sibs in the Bowman backcross-derived line BW806. Kernels were slightly shorter and were 10 to 20% lighter. The number of kernels per spike was slightly reduced. Grain yields were about 3/4 of normal and test weights were slightly lower. Based on the heterogeneous marker positions in line BW806, sdw6.f is not an allele at any of the previously named semidwarf loci (1, 2).
Origin of mutant: An ethyl methanesulfonate induced mutant in Vada (PI 243182) isolated as Betina (PI 362200) by Institute de la Recherche Agronomique, Versailles, Yvelines, France; released as a cultivar in 1970 (3, 4).
Mutational events: sdw6.f (GSHO 2449, Betina) in Vada (3).
Mutant used for description and seed stocks: sdw6.f (GSHO 2449) in Vada; sdw6.f in Bowman (PI 483237)*4 (GSHO 2331), in Bowman*5 (BW806, NGB 20783).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Sigurbjörnsson, B., and A. Micke. 1974. Philosophy and accomplishments of mutation breeding. pp. 303-343. In: Polyploidy and Induced Mutations in Plant Breeding. IAEA, Vienna. 4. USDA, GRIN. http://www.ars-grin.gov/cgi-bin/npgs/acc/display.pl?1270981.
Prepared: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:84.
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BGS 241, Accordion rachis 3, Acr3
Stock number: BGS 241 Locus name: Accordion rachis 3 Locus symbol: Acr3 Previous nomenclature and gene symbolization:
Lax spike = Lax (7, 8). Accordion rachis = acr (6). Accordion rachis c = acr.c (4). Accordion rachis 1 = acr1.a (5).
Inheritance: Monofactorial incomplete dominant for lax spike, the third factor required for expression of accordion rachis 1 (acr1) trait (3, 4). Located in chromosome 1HL (3), associated with SNP markers 2_1357 to 2_0997 (positions 76.96 to 94.86 cM) in 1HL of the Bowman backcross-derived lines BW009 and BW439 (3), likely in 1H bin 08. Bowman lines BW007, BW009, BW438 and BW456 contain longer overlapping segments of variable length and SNP marker patterns in 1H (3).
Description: Plants have slightly elongated rachis internodes (1). The Acr3 gene is in the third chromosomal region associated with expression of the accordion rachis trait in Bowman backcross derived lines BW009 and BW439. The contribution of the 1HL region to characteristics of the accordion phenotype is unknown. Only the line BW438 (Lax.an or Acr3.an) has a 1HL donor chromosome segment in a line lacking both the 2H and 4HL segments identified as containing the acr1 (see BGS 097) and Acr2 (see BGS 189) genes, respectively. Plants of the Bowman derived line BW438 were taller than Bowman and had slightly longer rachis internodes (4).
Origin of mutant: A naturally occurring deviant for lax spike from several sources (3, 4).
Mutational events: Acr3.a3 in ACBV89B229 (GSHO 1617) and ACBV89B232 (GSHO 1573) (3, 9); Acr3.b3 in Burma Girl (CIho 14831, GSHO 1071) (4, 9); Acr2.am2 and Acr3.an in AB 1398 [GSHO 1115, likely CIho 14785 from G.A. Wiebe (1)]; Acr3.c3 in T188 (GSHO 1480) from R.W. Woodward (2).
Mutant used for description and seed stocks: Acr3.a3 in ACBV89B229 (GSHO 1617); Acr3.b3 in Burma Girl (GSHO 1071); Acr2.am2 and Acr3.an in AB 1398 (CIho 14785); Acr3.an from AB 1398 in Bowman*5 (BW438, NGB 20670); Acr3.b3 from Burma Girl in Bowman *2 (GSHO 1898), in Bowman*5 (BW007, NGB 20415); Acr3.am3 from AB 1398 in Bowman*4 (BW456, NGB 20688); Acr3.a3 plus acr1.a and Acr2.a2 in Bowman*7 (BW009, NGB 20417 and BW439, NGB 20671). Acr3.c3 in T188 (GSHO 1480); Acr3.c3 from T188 in Bowman*6 (BW008, NGB 20416);
References: 1. Bockelman, H. http://www.ars-grin.gov/cgi-bin/npgs/acc/display.pl?1068768. 2. Doney, D.L. 1961. An inheritance and linkage study of barley with special emphasis on purple pigmentation of the auricle. M.S. Thesis. Utah State Univ., Logan. 3 Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010.
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Genetic Dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 4. Franckowiak, J.D. (Unpublished). 5. Franckowiak J.D. 2001. BGS 97, Accordion rachis 1, acr1. Barley Genet. Newsl. 32:85. 6. Haus, T.E. 1957. Inheritance of rachis internode length and an abnormal rachis type in barley. Dissertation Abstr. 49:179-180. 7. Nilan, R.A. 1964. The cytology and genetics of barley, 1951-1962. Monogr. Suppl. 3, Res. Stud. Vol. 32, No. 1. Washington State Univ. Press, Pullman. 8. Smith, L. 1951. Cytology and genetics of barley. Bot. Rev. 17:1-55, 133-202, 285-355. 9. Wolfe, R.I. 1990. (Personal communications).
Prepared: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:85-86.
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BGS 242, Slender dwarf 6, sld6
Stock number: BGS 242 Locus name: Slender dwarf 6 Locus symbol: sld6 Previous nomenclature and gene symbolization:
Slender dwarf g = sld.g (3). Inheritance:
Monofactorial recessive (2, 3). Located in chromosome 1H (1), associated with SNP markers 1_0259 to 1_0552 (positions 70.78 to 88.33 cM) in 1H and SNP markers 2_0226 to 2_0206 (positions 3.14 to 9.61 cM) in 5HS of the Bowman backcross-derived line BW854 (1), likely in 1H bin 07 or 08.
Description: Plant height of the sld6.g mutant is reduced and leaf blades are much shorter and slightly narrower (2). Plants of the Bowman backcross-derived line BW854 were 15 to 25% shorter than those of Bowman and spikes had about 4 fewer fertile rachis nodes. Spikes were semi-compact with rachis internodes about 25% shorter than those of Bowman. Kernels of BW854 were shorter and slightly thinner than those of Bowman. Kernel weights and grain yields were about 3/4 of normal (3). Based on the heterogeneous SNP marker positions in BW954, sld6.g is not an allele at any of the previously named slender dwarf loci (1, 3).
Origin of mutant: A sodium azide induced mutant in Glenn (CIho 15769) (2).
Mutational events: sld6.g (GSHO 2482) in Glenn (2, 3).
Mutant used for description and seed stocks: sld6.g (GSHO 2482) in Glenn; sld6.g in Bowman (PI 483237)*5 (GSHO 2355), in Bowman*7 (BW854, NGB 22291).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Faue, A.C. 1987. Chemical mutagenesis as a breeding tool for barley. M.S. Thesis. North Dakota State Univ., Fargo. 3. Franckowiak, J.D. (Unpublished).
Prepared: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:87.
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BGS 308, Long basal rachis internode 1, lbi1
Stock number: BGS 308 Locus name: Long basal rachis internode 1 Locus symbol: lbi1 Previous nomenclature and gene symbolization:
Curved peduncle = cr (1). Long basal spike internode = bi (5). Long basal spike internode = lb (7). Rachisextensum = rac-a and rac-b (4, 8).
Inheritance: Monofactorial recessive (1, 5). Located in chromosome 5HL (5), about 16.0 cM distal from the raw1 (smooth awn 1) locus (5); located in chromosome 1H associated with SNP markers 1_0238 to 2_0550 (positions 55.85 to 130.68 cM) or in chromosome 5HS with SNP markers 2_0226 to 1_0553 (positions 3.14 to 26.06 cM) of the Bowman backcross-derived line BW471 (2).
Description: The first or basal rachis internode is much longer than the other rachis internodes. Basal internode lengths range from less than 1 cm to more than 20 cm (5, 9). Genotype, environmental conditions, and tiller health alter basal rachis internode elongation in plants homozygous for the lbi1.a gene. Expression of the lbi1.a gene is commonly more pronounced in six-rowed genotypes than in two-rowed ones. In many environments, plants of the Bowman backcross-derived line BW471 were about 10% taller than Bowman and had longer peduncles. Rachis internodes were slightly longer and spike often had one or two more fertile rachis nodes. Kernels of BW471 plants were often slightly longer and heavier than those of Bowman (3). The marker data for BW471 conflict with the previously reported chromosomal location for lbi1.a, but the presence of the SNP marker pattern of the donor parent segments in BW471 suggests a six-rowed origin of the segments (2).
Origin of mutant: Natural occurrence in Wisconsin Pedigree 38 (Barbless, CIho 5105, GSHO 580) (5), and in many other six-rowed cultivars of Manchurian origin (5, 8).
Mutational events: lbi1.a (GHSO 580, CIho 5105) in Wisconsin Pedigree 38 (5); rac-a.2 (NGB 114845) and rac-b.1 (NGB 114844) in Bonus (PI 189763) are not alleles of each other (6); but both rac-a.2 and rac-b.1 are reported to be alleles at the lbi1 locus (8).
Mutant used for description and seed stocks: lbi1.a in Wisconsin Pedigree 38 (GSHO 580); lbi1.a in Bowman (PI 483237)*5 (GSHO 2144), in Bowman*6 (BW471, NGB 20701).
References: 1. Buckley, G.F.H. 1930. Inheritance in barley with special reference to the color of caryopsis and lemma. Sci. Agric. 10:460-492. 2. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 3. Franckowiak, J.D. (Unpublished). 4. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414.
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5. Hehn, E.R. 1948. The inheritance of agronomic characters in barley. Iowa State Coll. Jour. Sci. 23:39-40. (Abstr.) 6. Lundqvist, U. (Unpublished). 7. Robertson, D.W., G.A. Wiebe, and R.G. Shands. 1955. A summary of linkage studies in cultivated barley, Hordeum species: Supplement II, 1947-1953. Agron. J. 47:418-425. 8. Tsuchiya, T. 1974. Further results of allelism testing in barley. Barley Genet. Newsl. 4:82-85. 9. Wiebe G.A., and D.A. Reid. 1961. Classification of barley varieties grown in the United States and Canada in 1958. U.S. Dep. Agric. Tech. Bull. 1224. 234 pp.
Prepared: T.E. Haus and T. Tsuchiya. 1971. Barley Genet. Newsl. 1:167.
Revised: J.D. Franckowiak and U. Lundqvist. 1997. Barley Genet. Newsl. 26:258. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:88-89.
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BGS 315, Six-rowed spike 3, vrs3
Stock number: BGS 315 Locus name: Six-rowed spike 3 Locus symbol: vrs3 Previous nomenclature and gene symbolization:
Six-rowed spike 3 = v3 (3). Intermedium spike-a = int-a (6, 7, 9, 13). Intermedium spike-g = int-g (6, 7, 11).
Inheritance: Monofactorial recessive (3, 5, 7, 9, 11). Located in chromosome 1HL (4, 8, 14), near the centromere and proximal from the ert-b (erectoides-b) locus (8, 14); int-a.1 is associated with SNP markers 2_0619 to 1_1361 (positions 50.96 to 82.35 cM) in 1H of the Bowman backcross-derived line BW419 (1), vrs3.f is associated with SNP markers 1_0575 to 1_0075 (positions 37.21 to 82.35 cM) in 1H of the Bowman backcross-derived line BW902 (1), in 1H bin 07 or 08.
Description: The upper half of the spike appears six-rowed, but lateral spikelets in the lower half are reduced in size. The basal portion of the spike appears two-rowed. Awns on the lateral spikelets range from normal near the top, to awnletted or pointed in the middle, to awnless at the base of the spike. Seeds may develop in lateral spikelets of only the upper two-thirds of the spike. Lateral spikelets may be pedicellated in some stocks. Central spikelets often have double awns, one on the lemma and one on the palea. The rachilla may be deformed (3, 4, 5, 6, 11, 12). In Bowman backcross-derived lines BW419 and BW902, plants were often slightly shorter, rachis internodes were slightly longer, and kernels were thinner than those of Bowman. Kernel weights for BW419 ranged from 70 to 85% of normal compared to only 60 to 75% for those of BW902. Grain yields of Bowman lines BW419 and BW902 were often lower than those of Bowman (2).
Origin of mutant: A gamma-ray induced mutant in Hakata 2 (OUJ807, PI 263407) (3, 5), an X-ray induced mutant in Bonus (PI 189763) (7).
Mutational events: vrs3.f (GSHO 774) in Hakata 2 (Kmut 213, OUM292), vrs3.g (Xb 388.8, Piro-1), vrs3.h (Xd 160.46, Piro-3), vrs3.i (X15 1463, Piro-5), vrs3.j (X17 3555, Piro-8) in Piroline (PI 539132) (5); int-a.1 (NGB 115419) in Bonus (PI 189763) (11); int-a.2 (NGB 115420) in Bonus (11, 13); int-a.8 (NGB 115426),-a.9 (NGB 115427), -a.10 (NGB 115328), -a.64 (NGB 115482) in Bonus, -a.14 (NGB 115432), -a.17 (NGB 115435), -a.21 (NGB 115439), -a.27 (NGB 115445), -a.30 (NGB 115448), -a.31 (NGB 115449), -a.32 (NGB 115450), -a.34 (NGB 115452), -a.35 (NGB 115453), -a.37 (NGB 115455) in Foma (CIho 11333), -a.46 (NGB 115464), -a.51 (NGB 115469), -a.52 (NGB 115470), -a.54 (NGB 115472), -a.55 (NGB 15473), -a.59 (NGB 115477), -a.61 (NGB 115479) in Kristina (NGB 1500) (11); int-a.71 (NGB 115489), -a.74 (NGB 115492), -a.77 (NGB 115495), -a.79 (NGB 115497), -a.86 (NGB 115504), -a.88 (NGB 115506) in Bonus, -a.102 (NGB 115529), -a.103 (NGB 115521) in Hege (NGB 13692) (10).
Mutant used for description and seed stocks: vrs3.f in Hakata 2 (GSHO 774); int-a.1 in Bonus (GSHO 170, NGB 115419); vrs3.f in Bowman (PI 483237)*7 (GSHO 2056, BW902, NGB 22334); int-a.1 in Bowman*5
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(GSHO 2055), in Bowman*7 (BW419, NGB 20652). References:
1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Fukuyama, T., J. Hayashi, I. Moriya, and R. Takahashi. 1972. A test for allelism of 32 induced six-rowed mutants. Barley Genet. Newsl. 2:25-27. 4. Fukuyama, T., J. Hayashi, and R. Takahashi. 1975. Genetic and linkage studies of the five types of induced 'six-row' mutants. Barley Genet. Newsl. 5:12-13. 5. Fukuyama, T., R. Takahashi, and J. Hayashi. 1982. Genetic studies on the induced six-rowed mutants in barley. Ber. Ohara Inst. landw. Biol., Okayama Univ. 18:99-113. 6. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 7. Gustafsson, Å., and U. Lundqvist. 1980. Hexastichon and intermedium mutants in barley. Hereditas 92:229-236. 8. Jensen, J., and J.H. Jørgensen. 1975. The barley chromosome 5 linkage map. I. Literature survey and map estimation procedure. Hereditas 80:5-16. 9. Lundqvist, U. 1991. Coordinator's report: Ear morphology genes. Barley Genet. Newsl. 20:85-86. 10. Lundqvist, U. (unpublished). 11. Lundqvist, U., and A. Lundqvist. 1988. Induced intermedium mutants in barley: origin, morphology and inheritance. Hereditas 108:13-26. 12. Nötzel, H. 1952. Genetische Untersuchungen an röntgeninduzierten Gerstenmutanten. Kühn-Archiv 66:72-132. 13. Nybom, N. 1954. Mutation types in barley. Acta Agric. Scand. 4:430-456. 14. Persson, G. 1969. An attempt to find suitable genetic markers for dense ear loci in barley I. Hereditas 62:25-96.
Prepared: T. Fukuyama. 1983. Barley Genet. Newsl. 13:113.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:264-265. J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:90-91.
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BGS 351, Glossy sheath 1, gsh1
Stock number: BGS 351 Locus name: Glossy sheath 1 Locus symbol: gsh1 Previous nomenclature and gene symbolization:
Glaucous sheath = gs (5). Glossy sheath and spike = gs (25). Glossy sheath 1 = gs1 (17). Eceriferum-q = cer-q (7).
Inheritance: Monofactorial recessive (5, 7), except Cer-q.1440 (14). Located in chromosome 2HS (21, 22); in a sub-terminal position (20) over 36.5 cM distal from the Eam1 (early maturity 1) locus (1); associated with SNP markers 2_0562 to 1_0943 (positions 22.43 to 34.31 cM) in 2HS of the Bowman backcross-derived line BW404 (2), in 2H bin 02 or 03.
Description: A bright, green glossy color is apparent on the spike, leaf sheath, and stem (wax code - - ++) (7, 17). The gsh1 locus is the cer-q component of the complex locus named cer-cqu (3, 16), which controls formation of β-diketone lipids in epicuticular wax layer (23). The cer-q mutants affect the β-ketoacyl condensing enzyme (18, 24). Morphological differences, except for surface waxes, were not observed between Bowman and its backcross-derived line BW404 (4).
Origin of mutant: A spontaneous mutant in PI 95285 (5), an iodine vapor induced mutant in Bonus (PI 189763) (7).
Mutational events: gsh1.a (GSHO 735) in PI 95285 (5, 17, 19); gsh1.b in Piroline (PI 539132) (17); gsh1.c in Velvon (CIho 6109) (17, 25); gsh1.y in Minn 549 (17, 19); cer-q.35 (GSHO 438, NGB 110919) in Bonus (3, 7, 8); cer-q.42 (NGB 110926), -q.50 (NGB 110934), -q.56 (NGB 110940), -q.103 (NGB 110988) in Bonus (7, 8); cer-q.82 (NGB 110966), -q.83 (NGB 110967), -q.84 (NGB 110968), -cqu.124 (NGB 111009), -q.128 (NGB 111013), -q.131 (NGB 111016), -q.132 (NGB 111017), -q.133 (NGB 111018), -q.141 (NGB 111027), -q.151 (NGB 111037) in Bonus, -q.213 (NGB 111100), -q.217 (NGB 111104), -q.218 (NGB 111105), -q.239 (NGB 111126), -q.241 (NGB 111128), -q.245 (NGB 111132), -q.246 (NGB 111133), -q.261 (NGB 111148), -q.262 (NGB 111149), -q.292 (NGB 111179), -q.295 (NGB 111182), -q.297 (NGB 111184), -q.299 (NGB 111186), -q.310 (NGB 111197), -q.320 (NGB 111207), -q.326 (NGB 111213), -q.327 (NGB 111214), -q.334 (NGB 111221), -q.335 (NGB 111222), -q.341 (NGB 111228), -q.365 (NGB 111252), -q.395 (NGB 111282), -q.396 (NGB 111283), -q.400 (NGB 111287), -q.403 (NGB 111291), -q.411 (NGB 111299), -cqu.416 (NGB 111304), -cqu.420 (NGB 111308), -q.425 (NGB 111313), -q.440 (NGB 111328), -q.488 (NGB 111376), -q.509 (NGB 111397), -qu.510 (NGB 111398) in Foma (CIho 11333) (8, 16); cer-q.129 (NGB 111014), -q.176 (NGB 111062) in Bonus, -q.483 (NGB 111371), -q.516 (NGB 111404), -q.519 (NGB 111407), -q.524 (NGB 111412), -q.527 (NGB 111415), -q.533 (NGB 111421), -q.536 (NGB 111424), -q.548 (NGB 111436), -q.555 (NGB 111443), -q.557 (NGB 111445), -q.566 (NGB 111454), -q.574 (NGB 111462), -q.579 (NGB 111467), -q.597 (NGB 111485) in Foma, -q.675 (NGB 111563), -q.683 (NGB 111571), -q.688 (NGB 111576), -cqu.724 (NGB 111612), -cqu.733 (NGB 111621) in Bonus, -q.1016
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(NGB 111904), -q.1018 (NGB 111906), -q.1040 (NGB 111928), -q.1061 (NGB 111949), -q.1063 (NGB 111951), -q.1064 (NGB 111952), -q.1065 (NGB 111953), -q.1068 (NGB 111956), -q.1070 (NGB 111958), -q.1073 (NGB 111961), -q.1074 (NGB 111962), -q.1083 (NGB 111971) in Carlsberg II (CIho 10114) (8); cer-q.153 (NGB 111039), -q.754 (NGB 111642), -q.755 (NGB 111643), -q.756 (NGB 111644), -q.757 (NGB 111645), -q.759 (NGB 111647), -q.772 (NGB 111660), -qu.813 (NGB 111701), -q.822 (NGB 111710), -q.827 (NGB 111715), -q.837 (NGB 111725), -q.848 (NGB 111736), -q.876 (NGB 111764) in Bonus, -q.401 (NGB 111289) in Foma, -q.1079 (NGB 111967) in Carlsberg II, -q.1105 (NGB 111993), -q.1128 (NGB 112016), -q.1131 (NGB 112019), -q.1141 (NGB 112029), -q.1143 (NGB 112031) in Kristina (NGB 1500) (9); cer-q.629 (NGB 111517), -q.634 (NGB 111522), -q.636 (NGB 111524), -cq.645 (NGB 111533), -q.900 (NGB 111788), -cqu.925 (NGB 111813), -cqu.944 (NGB 111832) in Bonus, -q.1158 (NGB 112046), -q.1167 (NGB 112055) in Kristina (10); cer-q.1011 (NGB 111899) in Carlsberg II, -q.1121 (NGB 112009), -q.1193 (NGB 112081), -q.1209 (NGB 112097), -q.1225 (NGB 112113), -q.1234 (NGB 112122), -q.1238 (NGB 112126), -q.1242 (NGB 112130), -q.1243 (NGB 112131) in Kristina (11); cer-q.598 (NGB 111486) in Foma, -q.1260 (NGB 112148), -q.1281 (NGB 112169), -q.1283 (NGB 112171), -q.1285 (NGB 112173) in Kristina, -q.1320 (NGB 112208), -q.1330 (NGB 112218) in Bonus (12); cer-q.1230 (NGB 112118) in Kristina, -q.1345 (NGB 112233), -q.1358 (NGB 112246, 116826, 117275), -q.1362 (NGB 112250), -q.1363 (NGB 112251), -q.1368 (NGB 112256), -q.1369 (NGB 112257), -q.1375 (NGB 112263), -q.1400 (NGB 112288), -q.1406 (NGB 112294), -q.1412 (NGB 112300), -q.1430 (NGB 112318), -q.1459 (NGB 112347), -q.1464 (NGB 112352) in Bonus, -q.1504 (NGB 112392), -q.1512 (NGB 112400), -q.1514 (NGB 112402) in Nordal (13); Cer-q.1440 (NGB 112328), cer-q.1490 (NGB 112378), -q.1499 (NGB 112387), -q.1706 (NGB 112519), -q.1708 (NGB 112521), -q.1742 (NGB 112555), -q.1748 (NGB 112562), -q.1753 (NGB 112567) in Bonus (14), -q.1517 (NGB 112405), -q.1521 (NGB 112409), -q.1522 (NGB 112410), -q.1527 (NGB 112415), -q.1528 (NGB 112416), -q.1533 (NGB 112421), -q.1534 (NGB 112422), -q.1537 (NGB 112425), -q.1538 (NGB 112426), -q.1539 (NGB 112427), -q.1542 (NGB 112430), -q.1551 (NGB 112439), -q.1556 (NGB 112444), -q.1572 (NGB 112460) in Nordal (14); cer-q.571 (NGB 111459) in Foma (15); gsh1.aa (OUM018), gsh1.ad (OUM021), gsh1.ak (OUM028) in Akashinriki (PI 467400, OUJ659), gsh1.an (T119, OUL045) in a tester line, gsh1.ap (PI 95285, OUE093), gsh1.ar (PI 151791, OUE121), gsh1.as (PI 151815, OUE128), gsh1.at (PI 194916, OUE168), gsh1.au (CIho 14093, OUE330), gsh1.av (CIho 14139, OUE370), gsh1.ax (CIho 14094, OUE630), gsh1.ay (CIho 14140, OUE670), gsh1.az (CIho 4361, OUE676) in Ethiopian introductions, gsh1.ba in Bozu Omugi 1 (OUJ655) (6).
Mutant used for description and seed stocks: gsh1.a (GSHO 735) in PI 95285; cer-q.35 (GSHO 438, NGB 110919) in Bonus (PI 189763); gsh1.a in Bowman (PI 483237)*7 (GSHO 1868, BW404, NGB 20637).
References: 1. Doney, D.L. 1961. An inheritance and linkage study of barley with special emphasis on purple pigmentation on the auricle. M.S. Thesis. Utah State Univ., Logan. 2. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 3. Eslick, R.F. 1974. Allele tests of gs and cer mutants. Barley Genet. Newsl. 4:9-11. 4. Franckowiak, J.D. (Unpublished). 5. Immer, F.R., and M.T. Henderson. 1943. Linkage studies in barley. Genetics 28:419-440.
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6. Konishi, T. 1973. Genetic analyses of EMS-induced mutants in barley. Barley Genet. Newsl. 3:28-31. 7. Lundqvist, U., and D. von Wettstein. 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362. 8. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 9. Lundqvist, U., and D. von Wettstein. 1973. Stock list for the eceriferum mutants II. Barley Genet. Newsl. 3:110-112. 10. Lundqvist, U., and D. von Wettstein. 1975. Stock list for the eceriferum mutants III. Barley Genet. Newsl. 5:88-91. 11. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96. 12. Lundqvist, U., and D. von Wettstein. 1979. Stock list for the eceriferum mutants V. Barley Genet. Newsl. 9:135-137. 13. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 14. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 15. Lundqvist, U., and D. von Wettstein. 1988. Stock list for the eceriferum mutants VIII. Barley Genet. Newsl. 18:88-91 16. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 17. McProud, W.L., and R.F. Eslick. 1971. Allelism within a series of glossy sheath mutants. Barley Genet. Newsl. 1:31-34. 18. Mikkelsen, J.D. 1984. Biosynthesis of esterified alkan-2-ols and β-diketones in barley spike epicuticular wax: synthesis of radioactive intermediates. Carlsberg Res. Commun. 49:391-416. 19. Rasmusson, D.C, and J.W. Lambert. 1965. Inheritance of the glossy-sheath character in barley, Hordeum vulgare L. Crop Sci. 5:251-253. 20. Schondelmaier, J., G. Fischbeck, and A. Jahoor. 1993. Linkage studies between morphological and RFLP markers in the barley genome. Barley Genet. Newsl. 22:57-62. 21. Takahashi, R., J. Yamamoto, S. Yasuda, and Y. Itano. 1953. Inheritance and linkage studies in barley. Ber. Ohara Inst. landw. Forsch. 10:29-52. 22. Tsuchiya, T. 1972. Cytogenetics of telotrisomics in barley. Barley Genet. Newsl. 2:93-98. 23. Wettstein-Knowles, P. von. 1972. Genetic control of β-diketone and hydro-β-diketone synthesis in epicuticular waxes of barley. Planta 106:113-130. 24. Wettstein-Knowles, P. von. 1992. Molecular genetics of the lipid synthesis in barley. p.753-771. In L. Munck, K. Kirkegaard, and B. Jensen (eds.) Barley Genetics, Vol. II. Proc. Sixth Int. Barley Genet. Symp., Helsingborg, 1991. Sweden. Munksgaard International Publishers Ltd., Copenhagen. 25. Woodward, R.W. 1957. Linkage studies in barley. Agron. J. 49:28-32.
Prepared: W.L. McProud and R.F. Eslick. 1971. Barley Genet. Newsl. 1:168-169.
Revised: J.D. Franckowiak and U. Lundqvist. 1997. Barley Genet. Newsl. 26:292-293. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:92-94.
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BGS 356, Glossy sheath 6, gsh6
Stock number: BGS 356 Locus name: Glossy sheath 6 Locus symbol: gsh6 Previous nomenclature and gene symbolization:
Glossy sheath 6 = gs6 (16). Eceriferum-c = cer-c (5). Eceriferum-cqu = cer-cqu (14, 22).
Inheritance: Monofactorial recessive (5, 16, 18). Located in chromosome 2HS (18, 19, 20), in a subterminal position (17); associated with SNP markers 1_0326 to 2_0563 (positions 16.91 to 21.19 cM) in 2HS of the Bowman backcross-derived line BW409 (1), in 2H bin 02.
Description: A bright, glossy green color is apparent on the spike, leaf sheath, and stem (16). The gsh6 locus is the cer-c component of the complex locus cer-cqu (2), which controls formation of β-diketone lipids in epicuticular wax layer (21, 22). Most alleles have the wax code - - ++, but a few alleles show delayed development of surface waxes on the sheath (wax code - +/- ++) (5, 15). The only observed morphological difference between Bowman and the backcross-derived line BW409 was an increase in kernel length (3).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (5), a radiation induced mutant in Domen (CIho 9562) (16).
Mutational events: cer-c.3 (GSHO 212. GSHO 424, GSHO 959, NGB 110887) in Bonus (2, 5); cer-c.7 (NGB 110891), -c.29 (NGB 110913), -c.36 (NGB 110920), -c.44 (NGB 110928), -c.61 (NGB 110945), -c.63 (NGB 110947) in Bonus (5, 6); cer-c.73 (NGB 110957), -c.89 (NGB 110973), -c.95 (NGB 110979), -cu.108 (NGB 110993), -c.115 (NGB 111000), -c.123 (NGB 111008), -cqu.124 (NGB 111009) in Bonus, -c.201 (NGB 111088), -c.206 (NGB 111093), -c.220 (NGB 111107), -c.223 (NGB 111110), -c.234 (NGB 111121), -c.238 (NGB111125), -c.240 (NGB 111127), -c.250 (NGB 111137), -c.270 (NGB 111157), -c.282 (NGB 111169), -c.283 (NGB 111170), -c.284 (NGB 111171), -c.290 (NGB 111177), -c.291 (NGB 111178), -c.293 (NGB 111180). -c.306 (NGB 111193), -c.315 (111202), -c.332 (NGB 111219), -c.343 (NGB 111230), -c.354 (NGB 111241), -c.361 (NGB 111248), -c.364 (NGB 111251), -c.367 (NGB 111254), -c.368 (NGB 111255), -c.374 (NGB 111261), -c.379 (NGB 111266), -c.398h (NGB 111285), -c.398l (NGB 111288), -c.405 (NGB 111293), -c.406 (NGB 111294), -c.413 (NGB 111301), -cqu.416 (NGB 111304), -cqu.420 (NGB 111308), -c.431 (NGB 111319), -c.445 (NGB 111333), -c.455 (NGB 111343), -c.469 (NGB 111357), -c.471 (NGB 111359), -c.502 (NGB 111390) in Foma (CIho 11333) (6, 14); cer-c.143 (NGB 111029), -c.171 (NGB 111057), -c.175 (NGB 111061) in Bonus, -c.345 (NGB 111232), -c.451 (NGB 111339), -c.459 (NGB 111347), -c.508 (NGB 111396), -c.513 (NGB 111401), -c.514 (NGB 111402), -c.520 (NGB 111408), -c.526 (NGB 111414), -c.544 (NGB 111432), -c.550 (NGB 111438), -c.563 (NGB 111451), -c.596 (NGB 111484), -c.601 (NGB 111489), -c.661 (NGB 111549) in Foma, -c.669 (NGB 111557), -c.673 (NGB 111561), -c.690 (NGB 111578), -c.693 (NGB 111581), -c.698 (NGB 111586), -c.703 (NGB 111591), -c.711 (NGB 111499), -cqu.724 (NGB 111612), -cqu.733 (NGB 111621) in Bonus, -c.1001 (NGB 111889), -c.1004 (NGB 111892), -c.1008 (NGB 111896), -c.1010 (NGB 111898), -
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c.1015 (NGB 111903), -c.1022 (NGB 111910), -c.1029 (NGB 111917), -c.1034 (NGB 111922), -c.1035 (NGB 111923), -c.1039 (NGB 111927), -c.1062 (NGB 111950), -c.1067 (NGB 111955), -c.1082 (NGB 111970) in Carlsberg II (CIho 10114) (6); cer-c.589 (NGB 111477) in Foma, -c.748 (NGB 111636), -c.760 (NGB 111648), -c.764 (NGB 111652), -c.767 (NGB 111655), -c.770 (NGB 111658), -c.774 (NGB 111662), -c.786 (NGB 111674), -c.793 (NGB 111681), -c.794 (NGB 111682), -c.841 (NGB 111729), -c.845 (NGB 111733) -, c.847 (NGB 111735), -c.851 (NGB 111739), -c.860 (NGB 111748), -c.870 (NGB 111758), -c.881 (NGB 111769), -c.883 (NGB 111771) in Bonus, -c.1032 (NGB 111920) in Carlsberg II, -c.1098 (NGB 111986), -c.1100 (NGB 111988), -c.1109 (NGB 111997), -c.1117 (NGB 112005), -c.1123 (NGB 112011), -c.1125 (NGB 112013), -c.1135 (NGB 112023), -c.1136 (NGB 112024), -c.1140 (NGB 112028), -c.1147 (NGB 112035) in Kristina (NGB 1500) (7); cer-c.499 (NGB 111387), -c.609 (NGB 111497) in Foma, -c.630 (NGB 111518), -c.635 (NGB 111523), -c.640 (NGB 111528), -cu.644 (NGB 111532), -cq.645 (NGB 111533), -c.648 (NGB 111536), -c.890 (NGB 111778), -c.897 (NGB 111785), -c.902 (NGB 111790), -c.903 (NGB 111791), -c.904 (NGB 111792), -c.907 (NGB 111795), -c.912 (NGB 111800), -c.915 (NGB 111803), -cqu.925 (NGB 111813), -c.942 (NGB 111830), -cqu.944 (NGB 111832), -c.945 (NGB 111833), -c.980 (NGB 111868) in Bonus, -c.1156 (NGB 112044), -c.1187 (NGB 112075) in Kristina (8); cer-c.144 (NGB 111030), -cu.947 (NGB 111835), -c.987 (NGB 111875) in Bonus, -c.1110 (NGB 111998), -c.1212 (NGB 112100), -c.1229 (NGB 112117), -c.1248 (NGB 112136), -c.1258 (NGB 112146), -c.1264 (NGB 112152), -c.1276 (NGB 112164) in Kristina (9); cer-c.511 (NGB 111399) in Foma, -c.1200 (NGB 112088), -c.1254 (NGB 112271, 1168212), -c.1278 (NGB 116824, 117273), -c.1287 (NGB 112175), -c.1291 (NGB 112179) in Kristina, -c.1319 (NGB 112207), -c.1325 (NGB 112213), -c.1329 (NGB 112217), -c.1334 (NGB 112222), -c.1338 (NGB 112226) in Bonus (10); cer-c.993 (NGB 111881), -c.994 (NGB 111882), -c.995 (NGB 111883), -c.999 (NGB 111887), -c.1348 (NGB 112236), -c.1355 (NGB 112243), -c.1359 (NGB 112247), -c.1365 (NGB 112253), -c.1376 (NGB 112264), -c.1381 (NGB 112269), -c.1382 (NGB 112270), -c.1385 (NGB 112273), -c.1386 (NGB 112274), -c.1389 (NGB 112277), -c.1416 (NGB 112304), -c.1421 (NGB 112309), -c.1439 (NGB 112327), -c.1448 (NGB 112336), -c.1460 (NGB 112348), -c.1462 (NGB 112350), -c.1466 (NGB 112354), -c.1467 (NGB 112355) in Bonus, -c.1501 (NGB 112389), -c.1502 (NGB 112390), -c.1503 (NGB 112391), -c.1505 (NGB 112393), -c.1506 (NGB 112394), -c.1511 (NGB 112399), -c.1515 (NGB 112403) in Nordal (11); cer-c.1491 (112379), -c.1701 (NGB 112514), -c.1702 (NGB 112515), -c.1703 (NGB 112516), -c.1705 (NGB 112518), -c.1707 (NGB 112520), -c.1714 (NGB 112527), -c.1737 (NGB 112550, 117329), -c.1739 (NGB 112552), -c.1749 (NGB 112563), -c.1755 (NGB 112569), -c.1757 (NGB 112572) in Bonus, -c.1516 (NGB 112404), -c.1520 (NGB 112408), -c.1525 (NGB 112413), -c.1526 (NGB 112414), -c.1532 (NGB 112420), -c.1553 (NGB 112441), -c.1555 (NGB 112443), -c.1560 (NGB 112448) in Nordal (12); cer-c.602a (NGB 119348) in Foma (13); gsh6.o in Domen, gsh6.p in PI 184877, gsh6.q in Kogane Mugi (OUL010, PI 225020), gsh6.r in Barbless (CIho 5105), gsh6.s (GSHO 740) in Betzes (PI 129430), gsh6.t in Heines Hanna (PI 539131), gsh6.u, gsh6.v, gsh6.w, and gsh6.x in Compana (PI 539111) (15); gsh6.z (OUM017), gsh6.ac (OUM020), gsh6.ai (OUM026) in Akashinriki (PI 467400, OUJ659) (4); gsh6.aq in an Ethiopian introduction (PI 151787, OUE 120) (4).
Mutant used for description and seed stocks: cer-c.3 in Bonus (GSHO 212, GSHO 424, GSHO 959, NGB 110887); gsh6.s in Betzes (GSHO 740), gsh6.s via R.I. Wolfe’s Multiple Marker Stock for Chromosome 2 in Bowman (PI 483237)*7 (GSHO 1869, BW409, NGB 20642).
References:
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1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Eslick, R.F. 1974. Allele tests of gs and cer mutants. Barley Genet. Newsl. 4:9-11. 3. Franckowiak, J.D. (Unpublished). 4. Konishi, T. 1973. Genetic analyses of EMS-induced mutants in barley. Barley Genet. Newsl. 3:28-31. 5. Lundqvist, U., and D. von Wettstein. 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362. 6. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 7. Lundqvist, U., and D. von Wettstein. 1973. Stock list for the eceriferum mutants II. Barley Genet. Newsl. 3:110-112. 8. Lundqvist, U., and D. von Wettstein. 1975. Stock list for the eceriferum mutants III. Barley Genet. Newsl. 5:88-91. 9. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96. 10. Lundqvist, U., and D. von Wettstein. 1979. Stock list for the eceriferum mutants V. Barley Genet. Newsl. 9:135-137. 11. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 12. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 13. Lundqvist, U., and D. von Wettstein. 1988. Stock list for the eceriferum mutants VIII. Barley Genet. Newsl. 18:88-91. 14. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 15. McProud, W.L., and R.F. Eslick. 1971. Allelism within a series of glossy sheath mutants. Barley Genet. Newsl. 1:31-34. 16. Rasmusson, D.C., and J.W. Lambert. 1965. Inheritance of the glossy-sheath character in barley, Hordeum vulgare L. Crop Sci. 5:251-253. 17. Schondelmaier, J., G. Fischbeck, and A. Jahoor. 1993. Linkage studies between morphological and RFLP markers in the barley genome. Barley Genet. Newsl. 22:57-62. 18. Singh, R.J., and T. Tsuchiya. 1974. Further information on telotrisomic analysis in barley. Barley Genet. Newsl. 4:66-69. 19. Takahashi, R., J. Yamamoto, S. Yasuda, and Y. Itano. 1953. Inheritance and linkage studies in barley. Ber. Ohara Inst. landw. Forsch. 10:29-52. 20. Tsuchiya, T. 1972. Cytogenetics of telotrisomics in barley. BGN 2:93-98. 21. Wettstein-Knowles, P. von. 1972. Genetic control of β-diketone and hydro-β-diketone synthesis in epicuticular waxes of barley. Planta 106:113-130. 22. Wettstein-Knowles, P. von. 1992. Molecular genetics of the lipid synthesis in barley. p. 753-771. In L. Munck, K. Kirkegaard, and B. Jensen (eds.) Barley Genetics VI, Vol. II. Proc. Sixth Int. Barley Genet. Symp., Helsingborg, Sweden, 1991. Munksgaard International Publishers Ltd., Copenhagen.
Prepared: W. L. McProud and R.F. Eslick. 1971. Barley Genet. Newsl. 1:172-173.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:302-303. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:95-97.
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BGS 357, Male sterile genetic 1, msg1
Stock number: BGS 357 Locus name: Male sterile genetic 1 Locus symbol: msg1 Previous nomenclature and gene symbolization:
Male sterile = ms (13). Male sterile 1 = ms1 (4).
Inheritance: Monofactorial recessive (15). Located in chromosome 1HL (12), near the centromere (7), and about 10.0 cM proximal from the nec1 (necrotic leaf spot 1) locus (10, 13); probably proximal from the small lateral spikelet 1 (sls1) gene which also originated from MSS005; associated with SNP markers 1_0933 to 1_0324 (positions 82.35 to 87.19 cM) in 1HL of a heterozygous plant from the Bowman backcross-derived line BW545 (1), in 1H bin 08.
Description: Selfing - none (6). Outcrossing - complete female fertility (6). Stamens - anthers smaller than fertile sib, no stomium or filament elongation (14). Pollen - microspores degenerate at or before the free microspore stage (11); non-staining, shrunken, and devoid of cytoplasm (14). Cytology - normal development and differentiation of anthers until completion of meiosis (11). SNP markers in the plant studied as msg1.ca of the Bowman backcross-derived line BW145 were identical to those of Bowman (1).
Origin of mutant: A spontaneous mutant in the Composite Cross line CIho 5368 (15).
Mutational events: msg1.ca (GSHO 1810) from CIho 5368 in Betzes (PI 129430)*11 (MSS005) (11, 15); msg1.i (MSS077) in 80TT25 (CIho 13638), msg1.t (MSS042) in Trophy (CIho 10647), msg1.ai (MSS100) in Betzes (PI 129430) (8, 9); msg1.ar (MSS310) in Glossy Brachytic (CIho 15246), msg1.bp (MSS330) in Betzes (2, 9); msg1.cz (MSS348) in Betzes (3, 9); msg1.gb (MSS429) in Maris Mink (4); msg1.jv (MSS527) in a Harrington outcross (5).
Mutant used for description and seed stocks: msg1.ca in Betzes*11 (GSHO 1810); msg1.ca in Bowman (PI 483237)*8 (GSHO 2042, BW545).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Hockett, E.A. 1973. The genetic male sterile collection. Barley Genet. Newsl. 3:87-89. 3. Hockett, E.A. 1977. The genetic male sterile collection. Barley Genet. Newsl. 7:97-100. 4. Hockett, E.A. 1984. Coordinator's report. The genetic male sterile barley collection. Barley Genet. Newsl. 14:70-75. 5. Hockett, E.A. 1988. New mutants in the genetic male sterile collection. Barley Genet. Newsl. 18:70-73. 6. Hockett, E.A., and R.F. Eslick. 1968. Genetic male sterility in barley. I. Nonallelic genes. Crop Sci. 8:218-220.
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7. Hockett, E.A., and R.F. Eslick. 1971. Genetic male-sterile genes useful in hybrid barley production. p. 298-307. In R.A. Nilan (ed.) Barley Genetics II. Proc. Second Int. Barley Genet. Symp., Pullman, WA, 1969. Washington State Univ. Press, Pullman. 8. Hockett, E.A., R.F. Eslick, D.A. Reid, and G.A. Wiebe. 1968. Genetic male sterility in barley. II. Available spring and winter stocks. Crop Sci. 8:754-755. 9. Hockett, E.A., and D.A. Reid. 1981. Spring and winter genetic male-sterile barley stocks. Crop Sci. 21:655-659.
10. Jensen, J., and J.H. J rgensen. 1973. Locating some genes on barley chromosome 5. Barley Genet. Newsl. 3:25-27. 11. Kaul, C.L., and S.P. Singh. 1966. Studies in male-sterile barley. II. Pollen abortion. Crop Sci. 6:539-541. 12. Ramage, R.T., C.R. Burnham, and A Hagberg. 1961. A summary of translocation studies in barley. Crop Sci. 1:277-279. 13. Ramage, T., and J.L.A. Eckhoff. 1985. Assignment of mutants in Morex to chromosomes. Barley Genet. Newsl. 15:22-25. 14. Roath, W.W., and E.A. Hockett. 1971. Genetic male sterility in barley. III. Pollen and anther characteristics. Crop Sci. 11:200-203. 15. Suneson, C.A. 1940. A male sterile character in barley. A new tool for the plant breeder. J. Hered. 31:213-214.
Prepared: E.A. Hockett. 1971. Barley Genet. Newsl. 1:175.
Revised: J.D. Franckowiak and U. Lundqvist. 1997. Barley Genet. Newsl. 26:304-305. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:98-99.
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BGS 360, Male sterile genetic 4, msg4
Stock number: BGS 360 Locus name: Male sterile genetic 4 Locus symbol: msg4 Previous nomenclature and gene symbolization:
Male sterile 4 = ms4 (2). Inheritance:
Monofactorial recessive (2). Located in chromosome 1H, near the centromere (3); associated with SNP markers 2_0617 to 1_0552 (positions 50.96 to 88.33 cM) in 1H of a heterozygous plant from the Bowman backcross-derived stock BW576 (1), in 1H bins 05 to 08.
Description: Selfing - none (2). Outcrossing - complete female fertility (2). Stamens - anthers smaller than fertile sib, no stomium or filament elongation (5). Pollen - non-staining, shrunken, and no normal grains (5).
Origin of mutant: A spontaneous mutant in Freja (CIho 7130) (5).
Mutational events: msg4.cd (GSHO 2392) in Freja (MSS052) (2, 4).
Mutant used for description and seed stocks: msg4.cd in Freja (GSHO 2392); msg4.cd in Bowman (PI 483237)*7 (GSHO 2043, BW576).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Hockett, E.A., and R.F. Eslick. 1968. Genetic male sterility in barley. I. Nonallelic genes. Crop Sci. 8:218-220. 3. Hockett, E.A., and R.F. Eslick. 1971. Genetic male-sterile genes useful in hybrid barley production. p. 298-307. In R.A. Nilan (ed.) Barley Genetics II. Proc. Second Int. Barley Genet. Symp., Pullman, WA, 1969. Washington State Univ. Press, Pullman. 4. Hockett, E.A., and D.A. Reid. 1981. Spring and winter genetic male-sterile barley stocks. Crop Sci. 21:655-659. 5. Roath, W.W., and E.A. Hockett. 1971. Genetic male sterility in barley. III. Pollen and anther characteristics. Crop Sci. 11:200-203.
Prepared: E.A. Hockett. 1971. Barley Genet. Newsl. 1:177-178.
Revised: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:308. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:100.
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BGS 376, Male sterile genetic 21, msg21
Stock number: BGS 376 Locus name: Male sterile genetic 21 Locus symbol: msg21 Previous nomenclature and gene symbolization:
Male sterile q = msg,,q (3, 4, 6). Male sterile 21 = ms 21 (3).
Inheritance: Monofactorial recessive (3). Located in chromosome 1HL (1), associated with SNP markers 2_0290 to 2_0780 (positions 102.33 to 154.89 cM) in 1HL of the Bowman backcross-derived line BW556 (1), in 1H bins 10 or 11.
Description: Selfing - 3.8% at Bozeman, Montana and 2.9% at Tucson, Arizona, USA (3, 4). Outcrossing - complete female fertility (3). Stamens - anthers almost equal in size to fertile sibs (3). The Bowman backcross-derived line BW556 commonly showed 70 to 85% selfed seed set and the partially male fertile segregates were difficult to identify during backcrossing (2).
Origin of mutant: A spontaneous mutant in a Midwest Bulk (CIho 13640) (4).
Mutational events: msg21.q (GSHO 2373) in CIho 13640 (MSS085) (3, 5).
Mutant used for description and seed stocks: msg21.q in CIho 13640 (GSHO 2373); msg21.q in Bowman (PI 483237)*7 (GSHO 2302, BW556).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Hockett, E.A., and R.F. Eslick. 1971. Genetic male-sterile genes useful in hybrid barley production. p. 298-307. In R.A. Nilan (ed.) Barley Genetics II. Proc. Second Int. Barley Genet. Symp., Pullman, WA, 1969. Washington State Univ. Press, Pullman. 4. Hockett, E.A., R.F. Eslick, D.A. Reid, and G.A. Wiebe. 1968. Genetic male sterility in barley. II. Available spring and winter stocks. Crop Sci. 8:754-755. 5. Hockett, E.A., and D.A. Reid. 1981. Spring and winter genetic male-sterile barley stocks. Crop Sci. 21:655-659. 6. Robertson, D.W. 1971. Recent information of linkage and chromosome mapping. p. 220-242. In R.A. Nilan (ed.) Barley Genetics II. Proc. Second Int. Barley Genet. Symp., Pullman, WA, 1969. Washington State Univ. Press, Pullman.
Prepared: E.A. Hockett. 1971. Barley Genet. Newsl. 1:188-189.
Revised: T. Tsuchiya. 1982. Barley Genet. Newsl. 12:108. J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:324. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:101.
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BGS 400, Eceriferum-e, cer-e
Stock number: BGS 400 Locus name: Eceriferum-e Locus symbol: cer-e Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (5). Located in chromosome 1HL (2, 14), close to the centromere and near the ert-b (erectoides-b) locus (4, 14, 15); associated with SNP markers 1_0764 to 1_1326 (positions 61.55 to 82.35 cM) having the Bonus haplotype in 1H of the Bowman backcross-derived line BW109 via Wolfe’s Recessive Marker Stock 5.2 (1), likely in 1H bin 08.
Description: Surface wax coating on the spike appears absent or greatly reduced (wax code -/+ ++ ++) (5). A translocation is present in the allele cer-e.18, but it is not linked to the cer-e locus (5). The Bowman backcross-derived line has less wax on the spike and upper leaf sheath (wax code - + ++). Plants of the Bowman backcross-derived line BW109 had slightly longer awns and rachis internodes than Bowman. Kernels weights were slightly lower, but grain yields were equivalent (3).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (5).
Mutational events: cer-e.8 (NGB 110892, GSHO 1518), -e.18 (trans) (NGB 110902), -e.34 (NGB 110918) in Bonus (5, 6); cer-e.90 (NGB 110974), -e.140 (NGB 111025) in Bonus, -e.272 (NGB 111159), -e.294 (NGB 111181), -e.388 (NGB 111275), -e.551 (NGB 111439), -e.560 (NGB 111448), -e.586 (NGB 111474), -e.607 (NGB 111495) in Foma (CIho 11333) (6); cer-e.273 (NGB111160), -e.277 (NGB 111164), -e.296 (NGB 111183), -e.317 (NGB 111204), -e.321 (NGB 111208), -e.473 (NGB 111361), -e.480 (NGB 111369) in Foma (6, 13); cer-e.663 (NGB 111551), -e.692 (NGB 111580), -e.716 (NGB 111604), -e.717 (NGB 111605) in Bonus (6); cer-e.161 (NGB 111047) in Bonus, -e.577 (NGB 111465) in Foma, -e.790 (NGB111678) in Bonus, -e.1089 (NGB111977), -e.1106 (NGB111994) in Kristina (NGB 1500) (7); cer-e.908 (NGB 111796), -e.962 (NGB 111850) in Bonus, -e.1162 (NGB 111050) in Kristina (8); cer-e.1335 (NGB 112223) in Bonus (9); cer-e.1366 (NGB 112254), -e.1404 (NGB 112292), -e.1425 (NGB 112313), -e.1426 (NGB 112314) in Bonus (10); cer-e.1403 (NGB 112291), -e.1709 (NGB 112522), -e.1715 (NGB 112528) in Bonus (11); cer-e.1519 (NGB 112532) in Nordal, -e.1760 (NGB 112575) in Bonus, -e.1873 (NGB 117421), -e.1878 (NGB 117426), -e.1880 (NGB 117428), -e.1884 (NGB 117432) in Sv 79353 (12).
Mutant used for description and seed stocks. cer-e.8 in Bonus (GSHO 1518, NGB 110892); cer-e.8 via Wolfe’s Recessive Marker Stock 5.2 in Bowman (PI 483237)*7 (GSHO 2048, BW109, NGB 20515).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Fester, T., and B. Søgaard. 1969. The localization of eceriferum loci in barley.
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Hereditas 61:327-337. 3. Franckowiak, J.D. (Unpublished). 4. Jensen, J. 1974. Coordinator's report: Chromosome 5. Barley Genet. Newsl. 4:102-106. 5. Lundqvist, U., and D. von Wettstein. 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362. 6. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 7. Lundqvist, U., and D. von Wettstein. 1973. Stock list for the eceriferum mutants II. Barley Genet. Newsl. 3:110-112. 8. Lundqvist, U., and D. von Wettstein. 1975. Stock list for the eceriferum mutants III. Barley Genet. Newsl. 5:88-91. 9. Lundqvist, U., and D. von Wettstein. 1979. Stock list for the eceriferum mutants V. Barley Genet. Newsl. 9:135-137. 10. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 11. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 12. Lundqvist, U., and D. von Wettstein. 1988. Stock list for the eceriferum mutants VIII. Barley Genet. Newsl. 18:88-91. 13. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 14. Søgaard, B. 1971. Linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 1:41-47. 15. Søgaard, B. 1973. Continued linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 3:57-61.
Prepared: U. Lundqvist. 1975. Barley Genet. Newsl. 5:118.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:347. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:102-103.
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BGS 401, Eceriferum-f, cer-f
Stock number: BGS 401 Locus name: Eceriferum-f Locus symbol: cer-f Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (3). Located in chromosome 1H (1), associated with SNP markers 1_0764 to 2_1126 (positions 61.51 to 110.10) in 1H of the Bowman backcrossed-derived line BW110 (1); previously located in chromosome 7H (8), near the centromere and about 4.5 cM proximal from the ert-d (erectoides-d) locus (8, 9, 10), and about 6.3 cM distal from the nud1 (naked caryopsis 1) locus (9, 10).
Description: In the original stock surface wax coating on the spike, leaf sheath, and stem is reduced (wax code + + ++) (3). Reduced surface wax coating was apparent only on the spike (wax code + ++ ++) in the Bowman backcross-derived line, BW110. Plants BW110 were slightly taller than Bowman. Kernel weights varied from slightly lower to slightly more; grain yields were slightly less (2). Allelism tests need to be conducted to confirm that BW110 has the cer-f.9 mutant.
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (3).
Mutational events: cer-f.9 (NGB 110893, GSHO 427) in Bonus (3, 4); cer-f.230 (NGB 111117) in Foma (CIho 11333) (4, 7); cer-f.1002 (NGB 111890) in Carlsberg II (CIho 10114) (4); cer-f.763 (NGB 111651) in Bonus (5); cer-f.1423 (NGB 112311) in Bonus (6).
Mutant used for description and seed stocks: cer-f.9 in Bonus (GSHO 427, NGB 110893); cer-f.9 in Bowman (PI 483237)*6 (GSHO 1846), in Bowman*7 (BW110, NGB 20516).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U., and D. von Wettstein. 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362. 4. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 5. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96. 6. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 7. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 8. Søgaard, B. 1971. Linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 1:41-47.
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9. Søgaard, B. 1973. Continued linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 3:57-61. 10. Søgaard, B. 1974. The localization of eceriferum loci in barley III. Three point tests of genes on chromosome 1 in barley. Hereditas 76:41-48.
Prepared: U. Lundqvist. 1975. Barley Genet. Newsl. 5:119.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:348. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:104-105.
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BGS 409, Eceriferum-o, cer-o
Stock number: BGS 409 Locus name: Eceriferum-o Locus symbol: cer-o Previous nomenclature and symbolization:
None. Inheritance:
Monofactorial recessive (3). Located in chromosome 1HL (1), associated with SNP markers 2_0229 to 1_0006 (positions 106.61 to 110.10 cM) in 1HL of the Bowman backcrossed-derived line BW119 (1), in 1H bin 10.
Description: Surface wax coating on the spike appears absent or reduced (wax code -/+ ++ ++) (3). All cer-o mutants have pointed lateral spikelets and semi-sterility (50 to 75% seed set). Mutant segregates in the Bowman backcross-derived progenies were about 3/4 of normal height and had spikes with about 20% fewer fertile rachis nodes. Plants of Bowman backcross-derived line BW119 headed about two days later than Bowman and were about 15% shorter. Kernel weights were 10-15% lower and grain yields were about half those of Bowman (2).
Origin of mutant: A gamma-ray induced mutant in Bonus (PI 189763) (1).
Mutational events: cer-o.28 (NGB 110912, GSHO 436) in Bonus (3, 4); cer-o.687 (NGB 111575), -o.787 (NGB 11675) in Bonus (5); cer-o.251 (NGB 111138) in Foma (CIho 11333), -o.1144 (NGB 112032) in Kristina (NGB 1500) (6).
Mutant used for description and seed stocks: cer-o.28 in Bonus (GSHO 436, NGB 110912); cer-o.28 in Bowman (PI 483237)*5 (GSHO 2193), in Bowman*7 (BW119, NGB 20525).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U., and D. von Wettstein. 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362. 4. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 5. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96. 6. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172.
Prepared: U. Lundqvist. 1975. Barley Genet. Newsl. 5:127.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:359. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:106.
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BGS 413, Glossy sheath 8, gsh8
Stock number: BGS 413 Locus name: Glossy sheath 8 Locus symbol: gsh8 Previous nomenclature and gene symbolization:
Eceriferum-u = cer-u (6). Glossy sheath 8 = gs8 (4).
Inheritance: Monofactorial recessive (6). Located in chromosome 2HS (17), based on close association with the gsh6 (glossy sheath 6) locus (2, 5, 17, 18), in a subterminal position (16); associated with SNP markers 2_1377 to 1_0919 (positions (20.11 to 66.78 cM) in 2HS of the Bowman backcross-derived line BW411 (1), in 2H bin 02 or 03.
Description: The wax coating on the spike, stem and leaf sheath appears reduced (wax code + + ++) (6). The gsh8 locus is the cer-u component of the complex locus cer-cqu which controls epicuticular wax layer formation on the surface of the spike, leaf sheath, and stem (19,
20). Deposition of -diketone lipids is reduced or eliminated by mutants in the cer-cqu locus (20), specifically the cer-u mutants have impaired hydroxyl group insertion (19). The original cer-u.21 stock has reduced seed set (6). Morphological differences, except for surface waxes, were not observed between Bowman and its backcross-derived line BW411 (3).
Origin of mutant: A gamma-ray induced mutant in Bonus (PI 189763) (6).
Mutational events: cer-u.21 (NGB 110905, GSHO 442), -u.58 (NGB 110942) in Bonus (6, 7); cer-u.69 (NGB 110953), -u.76h (NGB 110960), -u.76l (NGB 110985), -u.80 (NGB 110964), -u.99 (NGB 110983), -u.107 (NGB 110992), -cu.108 (NGB 110993), -u.119 (NGB 111004), -u.120 (NGB 111005) in Bonus, -u.204 (NGB 111091), -u.237 (NGB 111124), -u.258 (NGB 111145), -u.265 (NGB 111152), -u.281 (NGB 111168), -u.304 (NGB 111191), -u.305 (NGB 111192), -u.307 (NGB 111194), -u.324 (NGB 111211), -u.330 (NGB 111217), -u.338 (NGB 111225), -u.344 (NGB 111231), -u.371 (NGB 111258), -u.376 (NGB 111263), -u.387 (NGB 111274), -cqu.416 (NGB 111304), -cqu.420 (NGB 111308), -u.443 (NGB 111331), -u.446 (NGB 111334), -u.452 (NGB 111340), -u.464 (NGB 111352), -u.466 (NGB 111354), -u.468 (NGB 111356), -u.472 (NGB 111360),-u.485 (NGB 111373), -u.491 (NGB 111379), -u.497 (NGB 111385), -u.498 (NGB 111386), -u.505 (NGB 111393), -qu.510 (NGB 111398) in Foma (CIho 11333) (7, 15); cer-cqu.124 (NGB 111009), -u.177 (NGB 111063), -u.178 (NGB 111064), -u.189 (NGB 111075) in Bonus, -u.525 (NGB 111413), -u.538 (NGB 111426), -u.542 (NGB 111430), -u.543 (NGB 111431), -u.556 (NGB 111444), -u.570 (NGB 111458), -u.581 (NGB 111469), -u.600 (NGB 111488), -u.605 (NGB 111493), -u.606 (NGB 111494) in Foma, -u.677 (NGB 111565), -u.686 (NGB 111574), -u.689 (NGB 111577), -u.697 (NGB 111585), -cqu.724 (NGB 111612), -cqu.733 (NGB 111621) in Bonus, -u.1003 (NGB 111891), -u.1009 (NGB 111897), -u.1042 (NGB 111930), -u.1043 (NGB 111931), -u.1048 (NGB 111936), -u.1060 (NGB 111948), -u.1076 (NGB 111964), -u.1078 (NGB 111966) in Carlsberg II (CIho 10114) (7); cer-u.610 (NGB 111498), -u.613 (NGB 111501) in Foma, -u.737 (NGB 111625), -u.766 (NGB 111654), -u.775 (NGB 111663), -u.779 (NGB 111667), -u.784 (NGB 111672), -u.789 (NGB 111677), -u.798 (NGB 111686), -qu.813
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(NGB 111701), -u.823 (NGB 111711), -u.825 (NGB 111713), -u.830 (NGB 111718), -u.835 (NGB 111723), -u.839 (NGB 111727), - u.840 (NGB 111728), -u.842 (NGB 111730), -u.843 (NGB 111731), -u.844 (NGB 111732), -u.855 (NGB 111743), -u.861 (NGB 111749) in Bonus, -u.1091 (NGB 111979), -u.1096 (NGB 111984), -u.1101 (NGB 111989), -u.1107 (NGB 111995), -u.1108 (NGB 111996), -u.1111 (NGB 111999), -u.1114 (NGB 112002), -u.1120 (NGB 112008), -u.1137 (NGB 112025), -u.1146 (NGB 112034), -u.1148 (NGB 112036) in Kristina (NGB 1500) (8); cer-cu.644 (NGB 111532), -u.695 (NGB 111583), -u.850 (NGB 111738), -u.887 (NGB 111775), -u.892 (NGB 111780), -u.895 (NGB 111783), -u.901 (NGB 111789), -cqu.925 (NGB 111813), -cqu.944 (NGB 111832), -cu.947 (NGB 111835) in Bonus, -u.1177 (NGB 112065) in Kristina (9); cer-u.699 (NGB 111587), -u.776 (NGB 111664), -u.986 (NGB 111874) in Bonus, -u.1165 (NGB 112053), -u.1184 (NGB 112072), -u.1188 (NGB 112076), -u.1202 (NGB 112090), -u.1215 (NGB 112103), -u.1227 (NGB 112115), -u.1232 (NGB 112120), -u.1237 (NGB 112125), -u.1253 (NGB 112141), -u.1272 (NGB 112160) in Kristina (10); cer-u.1208 (NGB 112096), -u.1261 (NGB 112149), -u.1268 (NGB 112156), -u.1282 (NGB 112170), -u.1288 (NGB 112176), -u.1295 (NGB 112183), -u.1306 (NGB 112194), -u.1309 (NGB 112197), -u.1310 (NGB 112198) in Kristina, -u.1327 (NGB 112215), -u.1340 (NGB 112228), -u.1341 (NGB 112229) in Bonus (11); cer-u.457 (NGB 111345), -u.578 (NGB 111466) in Foma, -u.1364 (NGB 112252), -u.1370 (NGB 112258), -u.1372 (NGB 112260), -u.1373 (NGB 112261), -u.1390 (NGB 112278), -u.1402 (NGB 112290), -u.1409 (NGB 112297), -u.1411 (NGB 112299), -u.1420 (NGB 112308), -u.1429 (NGB 112317) in Bonus (12); cer-u.1496 (NGB 112384), -u.1500 (NGB 112388), -u.1734 (NGB 112547), -u.1759 (NGB 112574), -u.1763 (NGB 112567) in Bonus, -u.1540 (NGB 112428), -u.1541 (NGB 112429) in Nordal (13); cer-u.678 (NGB 111566), -u.1825 (NGB 117373) in Bonus, -u.602b (NGB 111490) in Foma, -u.1870 (NGB 117418) in Sv 79353 (14); gsh8.ag (OUM024, GSHO 1760), gsh8.am (OUM031) in Akashinriki (PI 467400, OUJ659) (4, 5).
Mutant used for description and seed stocks: cer-u.21 in Bonus (GSHO 442, NGB 110905); gsh8.ag in Akashinriki (GSHO 1760); gsh8.ag in Bowman (PI 483237)*4 (GSHO 1870), in Bowman*5 (BW411, NGB 20644).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Eslick, R.F. 1974. Allele tests of gs and cer mutants. Barley Genet. Newsl. 4:9-11. 3. Franckowiak, J.D. (Unpublished). 4. Konishi, T. 1973. Genetic analyses of EMS-induced mutants in barley. Barley Genet. Newsl. 3:28-31. 5. Lundqvist, U. 1995. Coordinator's report: Eceriferum genes. Barley Genet. Newsl. 24:159. 6. Lundqvist, U., and D. von Wettstein. 1962. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48:342-362. 7. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 8. Lundqvist, U., and D. von Wettstein. 1973. Stock list for the eceriferum mutants II. Barley Genet. Newsl. 3:110-112. 9. Lundqvist, U., and D. von Wettstein. 1975. Stock list for the eceriferum mutants III. Barley Genet. Newsl. 5:88-91. 10. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96.
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11. Lundqvist, U., and D. von Wettstein. 1979. Stock list for the eceriferum mutants V. Barley Genet. Newsl. 9:135-137. 12. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 13. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 14. Lundqvist, U., and D. von Wettstein. 1988. Stock list for the eceriferum mutants VIII. Barley Genet. Newsl. 18:88-91. 15. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 16. Schondelmaier, J., G. Fischbeck, and A. Jahoor. 1993. Linkage studies between morphological and RFLP markers in the barley genome. Barley Genet. Newsl. 22:57-62. 17. Takahashi, R., J. Yamamoto, S. Yasuda, and Y. Itano. 1953. Inheritance and linkage studies in barley. Ber. Ohara Inst. landw. Forsch. 10:29-52. 18. Tsuchiya, T. 1972. Cytogenetics of telotrisomics in barley. Barley Genet. Newl. 2:93-98.
19. Wettstein-Knowles, P. von. 1972. Genetic control of -diketone and hydro- -diketone synthesis in epicuticular waxes of barley. Planta 106:113-130. 20. Wettstein-Knowles, P. von. 1992. Molecular genetics of the lipid synthesis in barley. p. 753-771. In L. Munck, K. Kirkegaard, and B. Jensen (eds.) Barley Genet. VI, Vol. II. Proc. Sixth Int. Barley Genet. Symp., Helsingborg, Sweden, 1991. Munksgaard International Publishers Ltd., Copenhagen.
Prepared: U. Lundqvist and P. von Wettstein-Knowles. 1975. Barley Genet. Newsl. 5:131 as BGS 413, Eceriferum-u, cer-u.
Revised: J.D. Franckowiak and U. Lundqvist. 1997. Barley Genet. Newsl. 26:364-365. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:107-109.
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BGS 422, Eceriferum-zd, cer-zd
Stock number: BGS 422 Locus name: Eceriferum-zd Locus symbol: cer-zd Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (8). Located in chromosome 3HL (2, 9), about 9.4 cM proximal from the uzu1 (uzu 1) locus and about 4.6 cM distal from the breakpoint in the ert-c.1 (erectoides-c) line (10, 11, 12, 13); associated with SNP markers 1_0672 to 1_0281 (positions 58.56 to 98.41) in 3H of the Bowman backcross-derived line BW160 (1), likely in 3H bin 05.
Description: Surface wax coating on the leaf blade appears absent (wax code ++ ++ -) (8). Concerning the chemical epicuticular wax composition, the amount of wax cm-2 is reduced and is accompanied by a decrease of the size and morphological complexity of the wax bodies. The bodies are smaller, simpler, and less dense. The wax class distribution is the same as in the mother variety (14). Plants of the Bowman backcross-derived line BW160 were 10 to 15% shorter than Bowman and headed about 2 days later. Kernels of BW160 were slightly thinner and 10 to 15% lighter. Grain yields were about 2/3 of normal (3)
Origin of mutant: A neutron induced mutant in Bonus (PI 189763) (8).
Mutational events: cer-zd.67 (NGB 110951, GSHO 451) in Bonus (4, 8); cer-zd.592 (NGB 111480) in Foma (CIho 11333), -zd.665 (NGB 111553), -zd.668 (NGB 111556) in Bonus (4); cer-zd.946 (NGB 111834) in Bonus (5); cer-zd.1351 (NGB 112239) in Bonus (6); cer-zd.1356 (NGB 112244) in Bonus (7).
Mutant used for description and seed stocks: cer-zd.67 in Bonus (GSHO 451,NGB 110951); cer-zd.67 in Bowman (PI 483237)*2 (GSHO 1962), in Bowman*3 (BW160, NGB 21992).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic Dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Fester, T., and B. Søgaard. 1969. The localization of eceriferum loci in barley. Hereditas 61:327-337. 3. Franckowiak, J.D. (Unpublished). 4. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1: 97-102. 5. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96. 6. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 7. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 8. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of
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eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 9. Søgaard, B. 1971. Linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 1:41-47. 10. Søgaard, B. 1973. Continued linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 3:57-61. 11. Søgaard, B. 1976. Three-point tests on barley chromosome 3. Barley Genet. Newsl. 6:65-67. 12. Søgaard, B. 1977. The localization of eceriferum loci in barley. V. Three point tests of genes on chromosome 1 and 3 in barley. Carlsberg Res. Commun. 42:67-75. 13. Takahashi, R. 1983. Coordinator's report: Chromosome 3. BGN 13:89-93. 14. Wettstein-Knowles, P. von. 1971. The molecular phenotypes of the eceriferum mutants. p.146-183. In R.A. Nilan (ed.) Barley Genetics II. Proc. Second Int. Barley Genet. Symp., Pullman, WA, 1969. Washington State Univ. Press, Pullman.
Prepared: U. Lundqvist and P. von Wettstein-Knowles. 1975. Barley Genet. Newsl. 5:140.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:373. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:110-111.
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BGS 431, Eceriferum-zn, cer-zn
Stock number: BGS 431 Locus name: Eceriferum-zn Locus symbol: cer-zn Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (5). Located in chromosome 1H (1), based on association with SNP markers 1_0764 to 1_0396 (positions 61.55 to 143.47 cM) in 1H of the Bowman backcross-derived line BW169 (1); previously located in 3HL (6, 7), over 12.0 cM distal from the uzu1 (uzu1) locus (6, 7, 8, 9, 10).
Description: Surface wax coating on the spike appears greatly reduced or absent (wax code +/- ++ ++) (5). No significant changes in other morphological traits were observed when Bowman backcross-derived line BW169 was compared to Bowman (2). The series of SNP markers heterogeneous in 3HL of BW169 are identical to those from the donor parent Foma in other Bowman backcross-derived lines (1, 2).
Origin of mutant: An ethylene imine mutant in Foma (CIho 11333) (3).
Mutational events: cer-zn.244 (NGB 111131, GSHO 1523), -zn.362 (NGB 111249) in Foma (3, 5); cer-zn.348 (NGB 111235), -zn.385 (NGB 111282), -zn.540 (NGB 111428) in Foma (3); cer-zn.1270 (NGB 112158) in Kristina (NGB 1500) (4).
Mutant used for description and seed stocks: cer-zn.244 in Foma (GSHO 1523, NGB 111131); cer-zn.244 in Bowman (PI 483237)*5 (GSHO 1983), in Bowman*7 (BW169, NGB 22000).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U., and D. von Wettstein. 1971. Stock list for the eceriferum mutants. Barley Genet. Newsl. 1:97-102. 4. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 5. Lundqvist, U., P. von Wettstein-Knowles, and D. von Wettstein. 1968. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. II. Hereditas 59:473-504. 6. Søgaard, B. 1971. Linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 1:41-47. 7. Søgaard, B. 1973. Continued linkage studies on eceriferum mutants in barley. Barley Genet. Newsl. 3:57-61. 8. Søgaard, B. 1976. Three-point tests on barley chromosome 3. Barley Genet. Newsl. 6:65-67. 9. Søgaard, B. 1977. The localization of eceriferum loci in barley V. Three point tests of genes on chromosome 1 and 3 in barley. Carlsberg Res. Commun. 42:67-75.
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10. Takahashi, R. 1983. Coordinator’s report: Chromosome 3. Barley Genet. Newsl. 13:89-93.
Prepared: U. Lundqvist. 1975. Barley Genet. Newsl. 5:149.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:383. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:112-113.
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BGS 438, Eceriferum-zu, cer-zu
Stock number: BGS 438 Locus name: Eceriferum-zu Locus symbol: cer-zu Previous nomenclature and symbolization:
None. Inheritance:
Monofactorial recessive (4). Location in chromosome 1H, associated with SNP markers 1_0764 to 1_0552 (positions 61.55 to 88.33 cM) in 1H of the Bowman backcross-derived line BW176 (1), in 1H bins 06 to 08.
Description: Surface wax coating on the spike appears absent, the wax coating on the leaf sheath and stem is reduced (wax code - + ++) (4). Leaf blades become golden yellow at or shortly after heading and later necrotic spots develop on the upper surface of the blade (3). The necrosis was observed in selections from crosses to Bowman, but this trait was not retained in the Bowman backcross-derived line BW176. Other significant deviations from the Bowman phenotype were not observed in BW176 (2).
Origin of mutant: An ethyl methanesulfonate induced mutant in Foma (CIho 11333) (3).
Mutational events: cer-zu.122 (NGB 111007, GSHO 1528) in Foma (4); cer-zu.973 (NGB 111861) in Bonus (PI 189763) (5); cer-zu.1163 (NGB 112051) in Kristina (NGB 1500), -zu.1419 (NGB 112307), -zu.1428 (NGB 112316), -zu.1447 (NGB 112335) in Bonus (6); cer-zu.1494 (NGB 112382), -zu.1762 (NGB 112577), -zu.1784 (NGB 112599) in Bonus, -zu.1570 (NGB 112458), -zu.1571 (NGB 112459) in Nordal (NGB 13680) (7).
Mutant used for description and seed stocks: cer-zu.122 in Foma (GSHO 1528, NGB 111007); cer-zu.122 in Bowman (PI 483237)*5 (GSHO 2206, BW176, NGB 22008).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010, Genetic Dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished). 4. Lundqvist, U., and D. von Wettstein. 1973. Stock list for the eceriferum mutants II. Barley Genet. Newsl. 3:110-112. 5. Lundqvist, U., and D. von Wettstein. 1979. Stock list for the eceriferum mutants V. Barley Genet. Newsl. 9:135-137. 6. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 7. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93.
Prepared: U. Lundqvist. 1975. Barley Genet. Newsl. 5:156.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:390.
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U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:114-115.
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BGS 442, Eceriferum-zy, cer-zy
Stock number: BGS 442 Locus name: Eceriferum-zy Locus symbol: cer-zy Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (4). Located in chromosome 1HS (1), near the tip of 1HS associated with SNP markers 2_0479 to 2_0502 (positions 0.0 to 3.18 cM) in 1HS of the Bowman backcross-derived line BW180 (1), likely in 1H bin 01.
Description: Surface wax coating on the leaf blade appears slightly reduced on the upper three leaves (wax code ++ ++ +) (4). Seedling leaves have a slightly yellow green color similar to that found in some chlorina mutants. Other morphological traits and plant vigor appeared normal in Bowman backcross-derived line BW180 (2).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (3).
Mutational events: cer-zy.118 (NGB 111103, GSHO 1532) in Bonus (4); cer-zy.136 (NGB 111021) in Bonus (5).
Mutant used for description and seed stocks: cer-zy.118 in Bonus (NGB 111003, GSHO 1532); cer-zy.118 in Bowman (PI 483237)*5 (BW180, NGB 22012).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished). 4. Lundqvist, U., and D. von Wettstein. 1973. Stock list for the eceriferum mutants II. Barley Genet. Newsl. 3:110-112. 5. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96.
Prepared: U. Lundqvist. 1975. Barley Genet. Newsl. 5:160.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:394. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:116.
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BGS 468, Male sterile genetic 31, msg31
Stock number: BGS 468 Locus name: Male sterile genetic 31 Locus symbol: msg31 Previous nomenclature and gene symbolization:
Male sterile d = msg,,d (4). Male sterile dwarf = msdwf (4).
Inheritance: Monofactorial recessive (3). Located in chromosome 1HL (1), distal from the sls1 (small lateral spikelet 1) locus (3); associated with SNP markers 1_1037 to 2_0909 (positions 125.59 to 149.90 cM) in 1HL of a heterozygous plant from the Bowman backcross-derived line BW567 (1), in 1H bin 11.
Description: Selfing - none (6). Outcrossing - complete female fertility (6). Stamens - anthers rudimentary, no stomium or filament elongation (5). In addition to male sterility, mutant plants are weak and short (about 1/2 normal height), show delayed development, and appear to lack surface wax on the spike (wax code - ++ ++) (2, 4).
Origin of mutant: A spontaneous mutant in the six-rowed line 51Ab4934 (CIho 15245) (6).
Mutational events: msg31.d (GSHO 2383) in 51Ab4934 (MSS306) (4, 6).
Mutant used for description and seed stocks: msg31.d in 51Ab4934 (GSHO 2383); msg31.d in Bowman (PI 483237)*6 (GSHO 2031, BW567).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Franckowiak, J.D. 1995. Notes on linkage drag in Bowman backcross derived lines of spring barley. Barley Genet. Newsl. 24:63-70. 4. Hockett, E.A. 1972. Coordinator's report on the genetic male sterile barley collection. Barley Genet. Newsl. 2:139-144. 5. Hockett, E.A. 1979. The genetic male-sterile barley collection. Barley Genet. Newsl. 9:124-128. 6. Hockett, E.A., and D.A. Reid. 1981. Spring and winter genetic male-sterile barley stocks. Crop Sci. 21:655-659.
Prepared: E.A. Hockett. 1986. Barley Genet. Newsl. 16:51.
Revised: E.A. Hockett. 1991. Barley Genet. Newsl. 20:98. J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:415. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:117.
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BGS 473, Compositum 1, com1
Stock number: BGS 473 Locus name: Compositum 1 Locus symbol: com1 Previous nomenclature and gene symbolization:
Laxatum-270 = lax-270 (5, 7, 9). Short-haired, inflorescent rachilla = si (7). Branching, inflorescent rachilla = bir1a (8). Compositum = com1a (9, 10, 11).
Inheritance: Monofactorial recessive (7, 8, 9). Located in chromosome 5HL (11, 12), near the srh1 (short rachilla hair 1) locus (12); between the ert-n (erectoides-n) and the lax-a (laxatum-a) loci (11), but widely different estimates of their distance from the srh1 (short rachilla hair 1) locus are reported (6, 11); associated with SNP markers 1_0974 to 1_0641 (positions 41.99 to 108.33 cM) in 5H of the Bowman backcrossed-derived line BW189 (1); associated with SNP markers 3_0745 to 1_0641 (positions 99.51 to 108.33 cM) in 5HL of the Bowman backcross-derived line BW605 (1), likely in 5H bin 06.
Description: The spike is branched from the rachis of the bottom 1 to 10 spikelets. Awns, which vary from normal to thread-like, and protruding branches are bent in various directions because of "packing" problems in the boot (7). More spike branches develop from rachis nodes under favorable environmental conditions. Plants of Bowman backcross-derived lines BW189, BW190, and BW605 had slightly lower kernel weights and test weights compared to Bowman and slightly reduced kernel widths (3).
Origin of mutant: An ethyl methanesulfonate and neutron induced mutant in Foma (CIho 11333) (2, 7).
Mutational events: com1.a (lax.270, NGB 116495, GSHO 1702), com1.b (lax.271, NGB 116496), com1.c (lax.272, NGB 116497), com1.d (lax.206, NGB 116433), com1.e (lax.213, NGB 116442) in Foma (9); com1.i (lax.296, NGB 116520, GSHO 1699) in Foma (3, 9); com1.l (mul.c, Mut. 2227, GSHO 2412) in Donaria (PI 161974) (3, 13).
Mutant used for description and seed stocks: com1.a in Foma (GSHO 1702, NGB 116495); com1.a in Bowman (PI 483237)*6 (GSHO 2098), in Bowman*7 (BW189, NGB 22021); com1.i (NGB 116520, GSHO 1699) in Foma; com1.i in Bowman*3 (GSHO 2232), in Bowman*5 (BW190, NGB 22022); com1.l (mul.c) in Donaria (GSHO 2412); com1.l in Bowman*6 (GSHO2312), in Bowman*7 (BW605, NGB 22171).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Ehrenberg, L., Å. Gustafsson, and U. Lundqvist. 1959. The mutagenic effects of ionizing radiations and reactive ethylene derivatives in barley. Hereditas 45:351-368. 3. Franckowiak, J.D. (Unpublished). 4. Franckowiak, J.D., B.P. Forster, U. Lundqvist, J. Lyon, I. Pitkethly, and W.T.B. Thomas. 2010. Developmental mutants as a guide to the barley phytomer. In S.
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Ceccarelli, S. Grando, et al. (eds.) Barley Genetics X. Proc. Tenth Int. Barley Genet. Symp., Alexandria, Egypt, 2008. 5. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 6. Jensen, J. 1981. Construction of a barley chromosome 7 linkage map. p. 927-939. In M.J.C. Asher, R.P. Ellis, A.M. Hayter, and R.N.H. Whitehouse (eds.) Barley Genetics IV. Proc. Fourth Int. Barley Genet. Symp., Edinburgh. Edinburgh Univ. Press, Edinburgh. 7 Larsson, H.E.B. 1981. Branching spike mutants from two loci in two-row barley. Barley Genet. Newsl. 11:25-28. 8. Larsson, H.E.B. 1983. New data about a gene for branching inflorescent rachilla located on barley chromosome 7. Barley Genet. Newsl. 13:82-83. 9. Larsson, H.E.B. 1985. Morphological analysis of laxatum barley mutants. Hereditas 103:239-253. 10. Larsson, H.E.B. 1985. Genetic analysis of laxatum barley mutants. Hereditas 103:255-267. 11. Larsson, H.E.B. 1985. Linkage studies with genetic markers and some laxatum barley mutants. Hereditas 103:269-279. 12. Persson, G. 1969. An attempt to find suitable genetic markers for dense ear loci in barley I. Hereditas 62:25-96. 13. Scholz, F., and O. Lehmann. 1958. Die Gaterslebener Mutanten der Saatgerste in Beziehung zur Formenmannigfaltigkeit der Art Hordeum vulgare L.s.l.I. Kulturpflanze 6:123-166.
Prepared: H.E.B. Larsson and U. Lundqvist. 1986. Barley Genet. Newsl. 16:56.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:420. U. Lundqvist and J. D. Franckowiak. 2010. Barley Genet. Newsl. 40:118-119.
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BGS 474, Laxatum-a, lax-a
Stock number: BGS 474 Locus name: Laxatum-a Locus symbol: lax-a Previous nomenclature and gene symbolization:
Laxatum-01 = lax-01 (5, 9, 14). Laxatum-a = lax-a01 (15).
Inheritance: Monofactorial recessive (10, 14). Located in chromosome 5HL (10, 13), about 2.4 cM proximal from the ari-e (breviaristatum-e) locus (7, 16), and about 3.1 cM from the ert-g (erectoides-g) locus (7, 15, 16); associated with SNP markers 2_1065 to 2_1275 (positions 40.91 to 104.73 cM) in 5H of the Bowman backcross-derived line BW457 (lax-a.8) and SNP markers 1_0621 to 2_1275 (positions 56.40 to 104.73 cM) in 5H of the Bowman backcross-derived line BW458 (lax-a.ap) (2), in 5H bin 08.
Description: Florets have five anthers with two developing from transformed lodicules (5, 18); however, the extra anthers are deficient in having two rather than four microsporangia (1). The grain is thin and angular and caryopses are exposed between the lemma and palea. The awn has a very wide base, without a distinct notch in the lemma attachment region. Rachis internodes are about 15% longer than normal. Tillers arise at oblique angles giving isolated plants an appearance of a tufty growth habit (9). Treatment of leaves after tillering with GA3 increases rachis internode length (17). Plants of Bowman backcross-derived line BW457 are 4/5 of normal height and anthesis is delayed by 3 to 4 days. Awns can be slightly shorter than those of Bowman. Kernels are generally short and thin and highly variable in size. Compared to Bowman, BW457 plants had kernel weights about 60% of normal, test weights were low, and grain yields were about half of normal (4).
Origin of mutant: A gamma-ray induced mutant in Bonus (PI 189763) (3, 9, 12).
Mutational events: lax-a.01 (NGB 116334), -a.4 (NGB 116338), -a.8 (NGB 116342, GSHO 1775), -a.20 (NGB 116354), -a.37 (NGB 116372), -a.39 (NGB 116374), -a.54 (NGB 116388) in Bonus (10, 11); lax-a.92 (NGB 116425, NGB 116426) in Bonus (11); lax-a.208 (NGB 116435, NGB 116436), -a.218 (NGB 116446), -a.222 (NGB 116450), -a.229 (NGB 116457, NGB 116458), -a.249, -a.256 (NGB 116483), -a.278 (NGB 116503), -a.286 (NGB 116510) in Foma (CIho 11333) (9, 11); -a.353 (NGB 116559, NGB 116560), -a.369 (NGB 116578, 116579), -a.373 (NGB 116583), -a.398 (NGB 116608), -a.405 (NGB 116613), -a.406 (NGB 116614) in Kristina (NGB 14661) (10); -a.413 (NGB 116621, NGB 116622), -a.434 (NGB 116647), -a.437 (NGB 116650), -a.444 (NGB 116658, NGB 116659), -a.448 (NGB 116664), -a.450 (NGB 116667, NGB 116668), -a.455 (NGB 116674, NGB 116675), -a.472 (NGB 116695) in Bonus (11); a lax-a mutant (Mut 2100/61) in Proctor (PI 280420) (6); lax-a.ap (FN50) in Steptoe (CIho 15229) (8).
Mutant used for description and seed stocks: lax-a.8 in Bonus (GSHO 1775, NGB 116342); lax-a.8 in Bowman (PI 483237)*7 (GSHO 2103, BW457, NGB 20689); lax-a.ap from Steptoe in Bowman*4 (BW458. NGB 22153).
References:
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1. Bossinger, G., W. Rohde W, U. Lundqvist U, and F. Salamini F. 1992. Genetics of barley development: mutant phenotypes and molecular aspects. p. 231-264. In P.R. Shewry (ed.) Barley: Genetics, Biochemistry, Molecular Biology and Biotechnology. CAB International, Oxford. 2. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 3. Ehrenberg, L., Å. Gustafsson, and U. Lundqvist. 1961. Viable mutants induced in barley by ionizing radiations and chemical mutagens. Hereditas 47:257-278. 4. Franckowiak, J.D. (Unpublished). 5. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 6. Häuser, H., and G. Fischbeck. 1972. Translocations and genetic analysis of other mutants. Barley Genet. Newsl. 2:28-29. 7. Jensen, J. 1981. Construction of a barley chromosome 7 linkage map. p. 927-939. In M.J.C. Asher, R.P. Ellis, A.M. Hayter, and R.N.H. Whitehouse (eds.) Barley Genetics IV. Proc. Fourth Int. Barley Genet. Symp., Edinburgh. Edinburgh Univ. Press, Edinburgh. 8. Kleinhofs, A. (Unpublished). 9. Larsson, H.E.B. 1985. Morphological analysis of laxatum barley mutants. Hereditas 103:239-253. 10. Larsson, H.E.B. 1985. Linkage studies with genetic markers and some laxatum barley mutants. Hereditas 103:269-279. 11. Lundqvist, U. (Unpublished). 12. Persson, G. 1969. An attempt to find suitable genetic markers for the dense ear loci in barley II. Hereditas 63:1-28. 13. Persson, G., and A. Hagberg. 1965. Localization of nine induced mutations in the barley chromosomes. Barley Newsl. 8:52-54. 14. Persson, G., and A. Hagberg. 1969. Induced variation in a quantitative character in barley. Morphology and cytogenetics of erectoides mutants. Hereditas 61:115-178. 15. Søgaard, B. 1974. Three-point tests on chromosome 1 and 7. Barley Genet. Newsl. 4:70-73. 16. Søgaard, B. 1977. The localization of eceriferum loci in barley. IV. Three point tests of genes on chromosome 7 in barley. Carlsberg Res. Commun. 42:35-43. 17. Stoy, V., and A. Hagberg. 1967. Effects of growth regulators on ear density mutants in barley. Hereditas 58:359-384. 18. Wettstein, D. von, Å. Gustafsson, and L. Ehrenberg. 1959. Mutationsforschung und Züchtung. p. 7-50. In Arbeitsgemeinschaft für Forschung des Landes Nordrhein-Westfalen, Heft 73. Westdeutscher Verlag Köln und Opladen.
Prepared: H.E.B. Larsson and U. Lundqvist. 1986. Barley Genet. Newsl. 16:57.
Revised: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:421-422. U. Lundqvist and J.D. Franckowiak. 2007. Barley Genet. Newsl. 37:273-274. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:120-121.
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BGS 502, Male sterile genetic 39, msg39
Stock number: BGS 502 Locus name: Male sterile genetic 39 Locus symbol: msg39 Previous nomenclature and gene symbolization:
Male sterile dm = msg,,dm (5). Inheritance:
Monofactorial recessive (1, 5). Located in chromosome 3HL (2), associated with SNP markers from 1_0312 to 1_0044 (positions 173.82 to 190.87 cM) in 3H of a heterozygous plant from the Bowman backcross-derived stock BW575 (2), in 3H bin 11 or 12; previously associated with chromosome 6H, over 33.9 cM from the rob1 (orange lemma 1) locus (3).
Description: Selfing - about 1% in Bozeman, Montana, USA and Elimäki, Finland (1, 5). Outcrossing - complete female fertility (1). Stamens - anthers are the same size as fertile sibs, stomium present, and filament elongates (1, 5).
Origin of mutant: A spontaneous mutant in a Finnish six-rowed barley (P11, CIho 15836) (1, 5).
Mutational events: msg39.dm in P11 (MSS361, GSHO 2391, GSHO 3021) (4, 7); msg39.dn (MSS362, GSHO 3022) in a Finnish six-rowed barley (H31, CIho 15837) (1, 4, 7); msg39.ff (MSS407) in Sabarlis (CIho 15484) (4, 6).
Mutant used for description and seed stocks: msg39.dm in P11 (GSHO 2391); msg39.dm in Bowman (PI 483237)*7 (GSHO 2080, BW575).
References: 1. Ahokas, H. 1976. Male sterile mutants of barley. III. Additional inaperturate mutants. Barley Genet. Newsl. 6:4-6. 2. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 3. Franckowiak, J.D. 1991. Association of male sterility genes with a specific chromosome using multiple marker stocks. Barley Genet. Newsl. 20:31-36. 4. Franckowiak, J.D., and E.A. Hockett. 1988. Identification of three new loci which control male sterility of barley. Barley Genet. Newsl. 18:11-13. 5. Hockett, E.A. 1977. The genetic male sterile barley collection. Barley Genet. Newsl. 7:97-100. 6. Hockett, E.A. 1984. Coordinator's report. The genetic male sterile barley collection. Barley Genet. Newsl. 14:70-75. 7. Hockett, E.A., and D.A. Reid. 1981. Spring and winter genetic male-sterile barley stocks. Crop Sci. 21:655-659.
Prepared: E.A. Hockett. 1991. Barley Genet. Newsl. 20:106.
Revised: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:428. J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:122.
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BGS 520, Male sterile genetic 48, msg48
Stock number: BGS 520 Locus name: Male sterile genetic 48 Locus symbol: msg48 Previous nomenclature and gene symbolization:
Male sterile genetic jt = msg,,jt and Msg76-5 (3). Inheritance:
Monofactorial recessive (2, 3). Probably located in chromosome 1H (1), associated with SNP markers from 1_0744 to 1_0552 (positions 39.84 to 88.33 cM) in 1H of a heterozygous plant from the Bowman backcross-derived stock BW585, plus small heterozygous regions in 4HL and 7HL (1).
Description: Selfing - 5% (2), but it may be near 50% in certain environments. Outcrossing - Complete female fertility (2). Stamens - anthers slightly smaller than fertile sib with filament elongation, but no stomium (2).
Origin of mutant: A spontaneous mutant in Simba (PI 584816, NGB 1505) (2).
Mutational events: msg48.jt (GSHO 2401) in Simba (MSS525) (2, 3).
Mutant used for description and seed stocks: msg48.jt in Simba (GSHO 2401); msg48.jt in Bowman (PI 483237)*4 (GSHO 1925, BW585).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D., and E.A. Hockett. 1992. Allelism tests for the genetic male sterile msg,,jt. Barley Genet. Newsl. 21:23-24. 3. Hockett, E. A. 1984. Coordinator's report. The genetic male sterile barley collection. Barley Genet. Newsl. 14:70-75.
Prepared: J.D. Franckowiak and E.A. Hockett. 1997. Barley Genet. Newsl. 26:447.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:123.
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BGS 523, Eceriferum-yj, cer-yj
Stock number: BGS 523 Locus name: Eceriferum-yj Locus symbol: cer-yj Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (4). Located in chromosome 1HS (1), near the tip of 1H associated with SNP markers 3_0969 to 3_0918 (positions 0.0 to 17.27 cM) in 1HS of the Bowman backcross-derived line BW141 (1), likely in 1H bin 01 or 02.
Description: Surface wax coating on the leaf blade appears absent on the upper three leaves (wax code ++ ++ -) (4). Plants of the original stock are semidwarf (about 3/4 normal height), but those of the Bowman backcross-derived line were not. Changes in the expression of other morphological trait were not observed in the Bowman backcross-derived line BW141 (2).
Origin of mutant: A neutron induced mutant in Bonus (PI 189763) (3).
Mutational events: cer-yj.667 (NGB 111155, GSHO 1543) in Bonus, -yj.1217 (NGB 112105) in Kristina (NGB 1500) (3); cer-yj.937 (NGB 111825) in Bonus (5); cer-yj.1150 (NGB 112038) in Kristina, -yj.1811 (NGB 117359) in Bonus (6).
Mutant used for description and seed stocks: cer-yj.667 in Bonus (NGB 111555, GSHO 1543); cer-yj.667 in Bowman (PI 483237)*3 (GSHO 2214); cer-yj.667 in Bowman*4 (BW141, NGB 20567).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (unpublished). 4. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96. 5. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 6. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:450.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:124.
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BGS 527, Eceriferum-yn, cer-yn
Stock number: BGS 527 Locus name: Eceriferum-yn Locus symbol: cer-yn Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (4). Probably located in chromosome 1H (1), associated with SNP markers between 2_0479 to 2_0095 (positions 0.0 to 89.85 cM) in 1H of the Bowman backcross-derived line BW145 and also with SNP markers between 2_1187 and 2_1338 (positions 51.62 and 74.97) in 2HS of BW145 (1).
Description: Surface wax coating on the spike, leaf sheath, and stem is reduced (wax code + + ++) (4). In the Bowman backcross-derived line, the wax coating is only slightly reduced, but nodes are glossy. Grain weight was slightly reduced in Bowman backcross-derived line BW145 and grain yields were 2/3 to 3/4 of normal (2).
Origin of mutant: An ethylene imine induced mutant in Kristina (NGB 1500) (3).
Mutational events: cer-yn.1112 (NGB 112000, GSHO 1547) in Kristina (4).
Mutant used for description and seed stocks: cer-yn.1112 in Kristina (GSHO 1547, NGB112000); cer-yn.1112 in Bowman (PI 483237)*2 (GSHO 2218); cer-yn.1112 in Bowman*4 (BW145, NGB 20551).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished). 4. Lundqvist, U., and D. von Wettstein. 1977. Stock list for the eceriferum mutants IV. Barley Genet. Newsl. 7:92-96.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:454.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:125.
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BGS 533, Eceriferum-yt, cer-yt
Stock number: BGS 533 Locus name: Eceriferum-yt Locus symbol: cer-yt Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (4). Located in chromosome 1HL or 5HL (1), associated with SNP markers 1_0516 to 2_1126 (positions 96.74 to 110.10 cM) in 1HL and markers 1_0622 to 1_1273 (positions 158.46 to 171.34 cM) in 5HL of the Bowman backcrossed-derived line BW151 (1).
Description: Surface wax coating on the spike appears absent (wax code - ++ ++) (4). In the Bowman backcrossed-derived line, culm nodes appear to lack surface wax. Most other morphological traits of plants in the Bowman backcross-derived line BW151 were similar to those of Bowman, except for kernel weights were 10 to15% lower. Grain yields varied from equal to 50% lower (2).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (3).
Mutational events: cer-yt.758 (NGB 111646), -yt.938 (NGB 111826, GSHO 1553), -yt.1333 (NGB 112221) in Bonus (4); cer-yt.1127 (NGB 112015), -yt.1304 (NGB 112192) in Kristina (NGB 1500), -yt.1427 (NGB 112315), -yt.1458 (NGB112346), -yt.1493 (NGB 112381), -yt.1766 (NGB 112581), -yt.1822 (NGB 117370) in Bonus (5); cer-yt.1379 (NGB 112267) in Bonus (6).
Mutant used for description and seed stocks: cer-yt.938 in Bonus (GSHO 1553, NGB 111826); cer-yt.938 in Bowman (PI 483237)*4 (GSHO 2223), in Bowman*7 (BW151, NGB 21963).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (unpublished). 4. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 5. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 6. Lundqvist, U., and D. von Wettstein. 1988. Stock list for the eceriferum mutants VIII. Barley Genet. Newsl. 18:88-91.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:460.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:126.
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BGS 534, Eceriferum-yu, cer-yu
Stock number: BGS 534 Locus name: Eceriferum-yu Locus symbol: cer-yu Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (4). Located in chromosome 1H (1), in centromeric region associated with SNP markers between 1_0275 to 2_1126 (positions 63.72 to 110.10 cM) in 1H of the Bowman backcross-derived line BW152 (1), but small donor parent segments in 3HL (SNP markers 2_0523 to 1_0754 at positions 173.82 to 190.87) and in 4HL (SNP markers 2_0765 to 2_0384 at 127.80 to 133.98) are retained in BW152 (1).
Description: Surface wax coating on the leaf blade appears absent only on upper leaves (wax code ++ ++ -) (3). Mutant plants have slightly coiled awns. The Bowman backcross-derived line is weak in the field and has short leaves, but these traits were not as obvious in greenhouse grown plants. The peduncles of Bowman backcross-derived line BW152 weare about 2/3 of normal length and rachis internodes were slightly shorter. Kernels of BW152 were slightly shorter and thinner and their weights were about 1/4 lower. Grain yields of BW152 were less than half those of Bowman (2).
Origin of mutant: A neutron induced mutant in Bonus (PI 189763) (3).
Mutational events: cer-yu.158 (NGB 111044), -yu.159 (NGB 111045, GSHO 1554), -yu.174 (NGB 111060), -yu.992 (NGB 111880), -yu.1799 (NGB117347) in Bonus, -yu.1168 (NGB 112056), -yu.1170 (NGB 112058) in Kristina (NGB 1500) (4).
Mutant used for description and seed stocks: cer-yu.159 in Bonus (NGB 111045, GSHO 1554); cer-yu.159 in Bowman (PI 483237)*3 (GSHO 2224); cer-yu.159 in Bowman*4 (BW152, NGB 21984).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished). 4. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:461.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:127.
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BGS 535, Eceriferum-yx, cer-yx
Stock number: BGS 535 Locus name: Eceriferum-yx Locus symbol: cer-yx Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (4). Located in chromosomes 1HL, 3HL, or 5H (1), associated with SNP markers of the Bowman backcross-derived line BW153 in 5H from 1_1198 to 2_0392 1_0927 (positions 73.70 to 109.27 cM) and from 1_0783 to 1_1441 (positions 208.43 to 231.75 cM), in 3HL from 1_1241 to 2_0659 (positions 108.07 to 141.21 cM), and in 1HL from 2_0121 to 2_0921 (positions 112.25 to 155.95 cM) (1).
Description: Surface wax coating on the spike, the leaf sheath, and stem appears reduced (wax code + + ++) (4). Plants of the Bowman backcross-derived line BW153 were slightly shorter than Bowman plants and kernels were 10 to 15% lighter. Grain yields were similar (2).
Origin of mutant: A neutron induced mutant in Foma (CIho 11333) (3).
Mutational events: cer-yx.421 (NGB 111309, GSHO 1555) in Foma, -yx.1226 (NGB 112114) in Kristina (NGB 1500) (4); cer-yx.1092 (NGB 111980), -yx.1094 (NGB 111082) in Kristina (5).
Mutant used for description and seed stocks: cer-yx.421 in Foma (GSHO 1555, NGB 111309); cer-yx.421 in Bowman (PI 483237)*2 (GSHO 2225), in Bowman*3 (BW153, NGB 21985).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished). 4. Lundqvist, U., and D. von Wettstein. 1985. Stock list for the eceriferum mutants VII. Barley Genet. Newsl. 15:89-93. 5. Lundqvist, U., and D. von Wettstein. 1988. Stock list for the eceriferum mutants VIII. Barley Genet. Newsl. 18:88-91.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:462.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:128.
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BGS 536, Eceriferum-yy, Cer-yy
Stock number: BGS 536 Locus name: Eceriferum-yy Locus symbol: Cer-yy Previous nomenclature and gene symbolization:
Glaucous head = ge (11). Glossy spike 1 = Gle1 (10).
Inheritance: Monofactorial dominant (6, 9). Located in chromosome 1HS (10), about 4.2 cM distal from the Hor2 (hordein 2, HorB) locus (3, 10); associated with SNP markers 2_0373 to 1_0419 (positions 0.0 to 6.37 cM) in 1HS of the Bowman backcross-derived line BW154 and SNP markers 2_0373 to 2_1226 (positions 0.0 to 13.50 cM) in 1HS of the Bowman backcross-derived line BW383 (1), likely in 1H bin 01.
Description: Surface wax coating on the spike appears absent (wax code - ++ ++) (7). Concerning the chemical epicuticular wax composition, the Cer-yy mutant in Bonus determines waxes lacking β-hydroxy-β-diketones and having relatively increased proportions of primary alcohols. The distribution of the lipid classes is similar to that of wild type plants (9). Other morphological changes were not observed in Bowman backcross-derived lines with Cer-yy mutants.
Origin of mutant: The Cer-yy gene or an allele is present in many Hordeum vulgare subsp. spontaneum accessions and in a few Hordeum vulgare subsp. vulgare cultivars (2); an ethyl methanesulfonate induced mutant in Bonus (PI 189763) (4).
Mutational events: Gle1.a in Cristal (PI 338354) (5, 6, 10, 12); Gle1.a in Estate (CIho 3410, GSHO 1316) (2); Cer-yy.437 (NGB 111325) in Foma (CIho 11333), -yy.649 (NGB 111537), -yy.650 (NGB 111538), yy.849 (NGB 111737, GSHO 1556), -yy.898 (NGB 111786), -yy.919 (NGB 111807), -yy.920 (NGB 111808), -yy.923 (NGB 111811), -yy.929 (NGB 111817), -yy.935 (NGB 111823), -yy.941 (NGB 111829), -yy.966 (NGB 111854), -yy.968 (NGB 111856), -yy.975 (NGB 111863), -yy.982 (NGB 111870), -yy.983 (NGB 111871), -yy.984 (NGB 111872) in Bonus (7); Cer-yy.974 (NGB 111862), -yy.1717 (NGB 112513) in Bonus (8).
Mutant used for description and seed stocks: Cer-yy.849 in Bonus (GSHO 1556, NGB 111737); Gle1.a in Estate (CIho 3410, GSHO 1316); Cer-yy.849 in Bowman (PI 483237)*6 (GSHO 2029, BW154, NGB 21986); Gle1.a from Estate in Bowman*7 (GSHO 2030, BW383, NGB 20622).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Jensen, J. 1987. Coordinator's report: Chromosome 5. Barley Genet. Newsl. 17:111-113. 4. Lundqvist, U. (Unpublished).
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5. Lundqvist, U. 1991. Coordinator's report: Eceriferum genes. Barley Genet. Newsl. 20:84. 6. Lundqvist, U. 1992. Coordinator's report: Eceriferum genes. Barley Genet. Newsl. 21:99-101. 7. Lundqvist, U., and D. von Wettstein. 1982. Stock list for the eceriferum mutants VI. Barley Genet. Newsl. 12:169-172. 8. Lundqvist, U., and D. von Wettstein. 1988. Stock list for the eceriferum mutants VIII. Barley Genet. Newsl. 18:88-91. 9. Lundqvist, U., and P. von Wettstein-Knowles. 1982. Dominant mutations at Cer-yy change barley spike wax into leaf blade wax. Carlsberg Res. Commun. 47:29-43. 10. Netsvetaev, V.P., and A.A. Sozinov. 1982. Linkage studies of genes Gle1 and HrdF in barley chromosome 5. Barley Genet. Newsl. 12:13-18. 11. Robertson, D.W., G.A. Wiebe, and R.G. Shands. 1947. A summary of linkage studies in barley: Supplement I, 1940-1946. J. Am. Soc. Agron. 39:464-473. 12. Wettstein-Knowles, P. von. 1991. New alleles of Cer-yy and cer-b. Barley Genet. Newsl. 20:66-68.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:463.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:129-130.
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BGS 548, Angustifolium-b, Fol-b
Stock number: BGS 548 Locus name: Angustifolium-b Locus symbol: Fol-b Previous nomenclature and gene symbolization:
Angustifolia = Ang (4). Inheritance:
Monofactorial incomplete dominant (3). Location in chromosome 1HS (3), based on trisomic analysis (3); associated with on SNP markers 2_0502 to 2_1226 (positions 3.18 to 13.50 cM) in 1HS of a heterozygous plant from the Bowman backcross-derived line BW371 (1), in 1H bin 01 or 02.
Description: Homozygous plants are very weak with short thread-like leaves and often die at the 3 to 4 leaf stage. Heterozygotes have narrow leaves, small spikes and kernels, but vigor is good and fertility is normal (3). Heterozygous plants of the Bowman backcross-derived stock BW371 are about 3/4 of normal height, heading is delayed a few days, and grain yields are low. The rachis internodes of heterozygotes are slightly elongated, awns are slightly shorter, and kernels per spike are 2 to 4 fewer. Heterozygotes of the BW371 stock have thin kernels that are about 1/2 of normal weight. The Fol-b.2 gene needs to be maintained in a heterozygous stock (2).
Origin of mutant: A spontaneous mutant in an unknown six-rowed cultivar (3).
Mutational events: Fol-b.2 in an unknown cultivar (GSHO 17) (4).
Mutant used for description and seed stocks: Fol-b.2 in an unknown cultivar (GSHO 17); Fol-b.2 in Bowman (PI 483237)*1 (GSHO 2265), in Bowman*6 (BW371, NGB 20610).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Tsuchiya, T., and R.L. Haines. 1975. Trisomic analysis of nine mutant genes in barley. Barley Genet. Newsl. 5:67-69. 4. Tsuchiya, T., S.D. Tanksley, and R. Ward. 1976. Trisomic analysis of three mutant genes in barley. Barley Genet. Newsl. 6:95.
Prepared: J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:474.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:131.
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BGS 557, Breviaristatum-p, ari-p
Stock number: BGS 557 Locus name: Breviaristatum-p Locus symbol: ari-p Previous nomenclature and gene symbolization:
Breviaristatum-27 = ari-27 (3). Inheritance:
Monofactorial recessive (3). Location is unknown, no SNP markers were retained in the Bowman backcross-derived line BW054 for ari-p.27 (1).
Description: Awns are about 3/4 normal length, and sterile spikelets occur at random in the original stocks (3). Initially during backcrossing to Bowman, short awned plants headed later than Bowman. In the Bowman backcross-derived line BW054, plants head about one day later than Bowman and have awn length from the tip of the spike of 6 vs. 11 cm. No other morphological differences were observed (2).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (3).
Mutational events: ari-p.27 (NGB 115875, GSHO 1664) in Bonus (4); ari-p.108 (NGB 115928), -p.172 (NGB 115982), -p.208 (NGB 116016), -p.209 (NGB 116017), -p.223 (NGB 116302) in Foma (CIho 11333) (3); ari-p.278 (NGB 116091) in Kristina (NGB 1500) (4).
Mutant used for description and seed stocks: ari-p.27 in Bonus (GSHO 1664, NGB 115875); ari-p.27 in Bowman (PI 483237)*3 (GSHO 2163), in Bowman*7 (BW054, NGB 20462).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Kucera, J., U. Lundqvist, and Å. Gustafsson. 1975. Inheritance of breviaristatum mutants in barley. Hereditas 80:263-278. 4. Lundqvist, U. (Unpublished).
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Gent. Newsl. 26:483.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:132.
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BGS 560, Erectoides-f, ert-f
Stock number: BGS 560 Locus name: Erectoides-f Locus symbol: ert-f Previous nomenclature and gene symbolization:
Erectoides-18 = ert-18 (3). Inheritance:
Monofactorial recessive, but some partial dominance is expressed (3, 6). Located in chromosome 1H (1), association with SNP markers 2_0617 to 2_1361 (positions 50.96 to 82.35 cM) in 1H of the Bowman backcross-derived line BW308 (1), in 1H bins 05 to 08.
Description: Spikes are semicompact with average rachis internode length values from 2.2 to 2.6 mm. Culm length is about 5/6 of normal (6). Sterile lateral spikelets of ert-f plants are larger than those of normal sibs, but apices are rounded. Plants of the Bowman backcross-derived line BW308 had an average rachis internode length of 2.8 vs. 3.7 mm for Bowman. Kernels of BW308 were slightly wider and shorter than those of Bowman, and grain yields were a slightly less (2).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (3).
Mutational events: ert-f.18 (NGB 112620, GSHO 478) in Bonus (4); ert-f.86 (NGB 112685), -f.145 (NGB 112744) in Bonus (5).
Mutant used for description and seed stocks: ert-f.18 in Bonus (GSHO 478, NGB 112620); ert-f.18 in Bowman (PI 483237)*6 (GSHO 2004, BW308, NGB 22104).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Hagberg, A. 1958. Cytogenetik einger Gerstenmutanten. Züchter 28:32-36. 4. Hagberg, A., Å. Gustafsson, and L. Ehrenberg. 1958. Sparsely contra densely ionizing radiations and the origin of erectoid mutants in barley. Hereditas 44:523-530. 5. Hagberg, A., G. Persson, and A. Wiberg. 1963. Induced mutations in the improvement of self-pollinated crops. p. 105-124. In E. Åkerberg and A. Hagberg (eds.) Recent Plant Breeding Research. Svalöf 1946-1961. Almqvist & Wiksell, Stockholm. 6. Persson, G., and A. Hagberg. 1969. Induced variation in a quantitative character in barley. Morphology and cytogenetics of erectoides mutants. Hereditas 61:115-178.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:486.
Revised: J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:133.
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BGS 566, Erectoides-t, ert-t
Stock number: BGS 566 Locus name: Erectoides-t Locus symbol: ert-t Previous nomenclature and gene symbolization:
Erectoides-55 = ert-55 (7). Brachytic 4 = br4 (10). Brachytic-g = brh.g (2, 4). Brachytic-h = brh.h (2, 4). Brachytic-i = brh.i (2, 4). Brachytic-y = brh.y (2, 4). Brachytic 3 = brh3 (2, 5).
Inheritance: Monofactorial recessive (4, 7, 9). Located in chromosome 2HS (2), approximately 11.4 cM distal from SSR marker Bmac0134 (2), near the boundary between 2H bins 01 and 02 (2); associated SNP markers 1_0326 to 2_0563 (positions 16.91 to 21.19) in 2HS of the Bowman backcross-derived line BW324, markers 2_0609 to 1_1059 (positions about 13 to 17.96) in 2HS of the Bowman backcross-derived line BW091, and markers 1_0326 to 1_0180 (positions 16.91 to 40.06) in 2HS of the Bowman backcross-derived line BW094 (3); no SNP markers were retained in 2HS of the Bowman backcross-derived line BW093 placing the ert-t locus at least 18 cM from the tip of 2HS (3), likely in 2H bin 02.
Description: Spikes are semi-compact, rachis internode length is about 2.7 mm in the original mutant, and culm length is about 2/3 of normal. These phenotypic traits plus short awns are inherited together (9). Based on general appearance of the plants, ert-t can be placed in the brachytic class of semidwarf mutants (4, 10). Awns are about 2/3 normal length and curled or coiled near their tips. The ert-t.55 mutant has short seedling leaves and is sensitive to gibberellic acid treatment (1). When Bowman was compared to the Bowman backcross-derived lines BW091, BW093, BW094, and BW324, peduncles and plants of the mutants were about 2/3 of normal length, rachis internodes were slightly short, and lodging was reduced. Kernels are shorter and slightly lighter and yields were about 1/2 normal (2).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (7).
Mutational events: ert-t.55 in Bonus (NGB 112654, GSHO 494) (7); brh3.g (17:10:1, GSHO 1672), brh3.h (17:11:3, GSHO 1673), brh3.i (17:12:1, GSHO 1674) in Birgitta (NGB 1494 and 14667) (2, 4, 5, 8); brh3.y (10001, GSHO 1688) in Bido (PI 399485) (2, 4, 6).
Mutant used for description and seed stocks: ert-t.55 in Bonus (GSHO 494, NGB 112654); ert-t.55 in Bowman (PI 483237)*7 (GSHO 2257, BW324, NGB 22119); brh3.g in Birgitta (GSHO 1672); brh3.g in Bowman*7 (GSHO 2167, BW091, NGB 20496); brh3.i in Birgitta (GSHO 1674), in Bowman*7 (GSHO 2169, BW093, NGB 20499), brh3.y in Bido (GSHO 1688), in Bowman*6 (GSHO 2178, BW094, NGB 20500).
References: 1. Börner, A. 1996. GA response in semidwarf barley. Barley Genet. Newsl. 25:24-26.
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2. Dahleen, L.S., L.J. Vander Wal, and J.D. Franckowiak. 2005. Characterization and molecular mapping of genes determining semidwarfism in barley. J. Hered. 96:654-662. 3. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 4. Franckowiak, J.D. 1995. The brachytic class of semidwarf mutants in barley. Barley Genet. Newsl. 24:56-59. 5. Franckowiak. J.D. 2002. BGS 631, Brachytic 3, brh3. Barley Genet. Newsl. 32:132. 6. Gaul, H. 1986. (Personal communications). 7. Hagberg, A., Å. Gustafsson, and L. Ehrenberg. 1958. Sparsely contra densely ionizing radiations and the origin of erectoid mutants in barley. Hereditas 44:523-530. 8. Lehmann, L.C. 1985. (Personal communications). 9. Persson, G., and A. Hagberg. 1969. Induced variation in a quantitative character in barley. Morphology and cytogenetics of erectoides mutants. Hereditas 61:115-178. 10. Tsuchiya, T. 1976. Allelism testing of genes between brachytic and erectoides mutants. Barley Genet. Newsl. 6:79-81.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:492. J.D. Franckowiak. 2002. BGS 631, Brachytic 3, brh3. Barley Genet. Newsl. 32:132.
Revised: J.D. Franckowiak and L.S. Dahleen. 2007. Barley Genet. Newsl. 37:281-282. J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:134-135.
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BGS 568, Erectoides-x, ert-x
Stock number: BGS 568 Locus name: Erectoides-x Locus symbol: ert-x Previous nomenclature and gene symbolization:
Erectoides-58 = ert-58 (3). Inheritance:
Monofactorial recessive (3). Location in chromosomes 1H or 7H (1), associated with SNP markers 2_0617 to 2_1126 (positions 50.96 to 110.10 cM in 1H) and markers 1_1028 to 2_0230 (positions 97.66 to 118.80 cM) in 7H of the Bowman backcrossed-derived line BW327 (1).
Description: Spikes are semi-compact with a rachis internode length value of 2.7 mm. Culm length is about 3/4 of normal (4). Compared to Bowman, the backcross-derived line BW327 had internode lengths of 2.6 vs. 3.7 mm, awn lengths were 7 vs. 11 cm, and plants headed 3 to 4 days later. Other morphological traits and yields of BW327 were similar to those of Bowman (2).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (3).
Mutational events: ert-x.58 (NGB 112657, GSHO 498) in Bonus (3, 4).
Mutant used for description and seed stocks: ert-x.58 in Bonus (GSHO 498, NGB 112657); ert-x.58 in Bowman (PI 483237)*5 (GSHO 2259), in Bowman*7 (BW327, NGB 22122).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Hagberg, A., G. Persson, and A. Wiberg. 1963. Induced mutations in the improvement of self-pollinated crops. p. 105-124. In E. Åkerberg and A. Hagberg (eds.) Recent Plant Breeding Research. Svalöf 1946-1961. Almqvist & Wiksell, Stockholm. 4. Persson, G., and A. Hagberg. 1969. Induced variation in a quantitative character in barley. Morphology and cytogenetics of erectoides mutants. Hereditas 61:115-178.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:494.
Revised: U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:136.
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BGS 582, Praematurum-f, mat-f
Stock number: BGS 582 Locus name: Praematurum-f Locus symbol: mat-f Previous nomenclature and gene symbolization:
Praematurum-23 = mat-23 (7). Inheritance:
Monofactorial recessive (4). Likely located in chromosome 1H (1), the SNP markers retained in the Bowman backcross-derived line BW511 showing the continuous markers from Bonus as 1_0764 to 1_1326 (positions 61.55 to 82.35 cM in 1H) and SNP markers 1_0310 to 2_0152 (positions 285.74 to 298.99) in 5HL (1).
Description: Early heading mutants at the mat-f locus have a moderate increase in earliness (heading 3 to 4 days earlier than the parents) under field cultivation in Sweden (6, 7). When grown under controlled environmental conditions, mutants are photo- and thermoperiod sensitive and have a pronounced long-day response (3). Early heading of mat-f.23 segregates was observed in fall greenhouse nurseries in Fargo, North Dakota. The Bowman backcross-derived line BW511 was similar in maturity to Bowman and other agronomic traits when grown in Scotland. In New Zealand, it was slightly shorter than Bowman, while in Idaho grain yields were lower than those of Bowman. When grown under short-day conditions in Queensland, mat-f.23 plants headed about 7 days earlier than Bowman (2).
Origin of mutant: An X-ray induced mutant in Bonus (PI 189763) (7).
Mutational events mat-f.23 (NGB 110023, GSHO 1792), -f.780 (NGB 110780), -f.875 (NGB 110875), -f.891 (NGB 116846), -f.908 (NGB 117439), -f.932 (NGB 117463) in Bonus, -f.983 (NGB 117514) in Sv 79353 (5, 6, 7).
Mutant used for description and seed stocks: mat-f.23 in Bonus (GSHO 1792, NGB 110023); mat-f.23 in Bowman (PI 483237)*2 (GSHO 2284), in Bowman*5 (BW511, NGB 20739).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic Dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Gustafsson, Å., I. Dormling, and U. Lundqvist. 1982. Gene, genotype and barley climatology. Biol. Zent. Bl. 101:763-782. 4. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 5. Lundqvist, U. 1991. Swedish mutation research in barley with plant breeding aspects. A historical review. p. 135-148. In Plant Mutation Breeding for Crop Improvement. Proc. Int. Symp. Vienna, 1990. Int. Atomic Energy Agency, Vienna. 6. Lundqvist, U. 1992. Coordinator's report: Earliness genes. Barley Genet. Newsl. 21:127-129. 7. Lundqvist, U. (Unpublished).
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Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26: 509.
Revised: J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:137-138.
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BGS 586, Bracteatum-d, bra-d
Stock number: BGS 586 Locus name: Bracteatum-d Locus symbol: bra-d Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (3). Located in chromosome 1HL (7), about 4.1 cM from AFLP marker E3634-7 (7), probably in 1H bin 14 based on the association with trd1 (third outer glume 1) (4, 7); associated with SNP markers 1_0041 to 2_0772 (positions 199.04 to 205.07 cM) in 1HL of the Bowman backcross-derived line BW070 (1), in 1H bin 14.
Description: The characteristic trait of this mutant is the presence of a bract (third outer glume) outside the two empty glumes of the central spikelet. The bract subtending the lowest spikelet is always the largest, embracing in some cases about one-half the spike. Bracts become progressively smaller toward the tip of the spike. Mutants have elongated basal rachis internodes (5, 6). Pozzi et al. (7) suggested that bra-d.7 is allelic to trd1 (third outer glume 1) or near the trd1 locus. Allelism studies demonstrated that bra-d.7 is not an allele at the trd1 locus (5). Compared to Bowman backcross-derived lines with trd1 mutants, the Bowman backcross-derived line for bra-d BW070 had slightly shorter peduncles, 5 or more fewer fertile rachis nodes per spike, and slightly shorter awns. Compared to Bowman, kernel weights for BW070 were 10 to 15% and grain yield were about one half of normal (2).
Origin of mutant: An ethylene imine induced mutant in Foma (CIho 11333) (5).
Mutational events: bra-d.7 (NGB 114310, GSHO 1696) in Foma (5).
Mutant used for description and seed stocks: bra-d.7 in Foma (GSHO 1696, NGB 114310); bra-d.7 in Bowman (PI 483237)*3 (GSHO 2185, NGB 20478).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 4. Kleinhofs, A. 2006. Integrating molecular and morphological/physiological marker maps. Barley Genet. Newsl. 36:66-82. 5. Lundqvist, U. (Unpublished). 6. Nybom, N. 1954. Mutation types in barley. Acta Agric. Scand. 4:430-456. 7. Pozzi, C., D. di Pietro, G. Halas, C. Roig, and F. Salamini. 2003. Integration of a barley (Hordeum vulgare) molecular linkage map with the position of genetic loci hosting 29 developmental mutants. Heredity 90:390-396.
Prepared: U. Lundqvist and J.D. Franckowiak. 1997. Barley Genet. Newsl. 26:513.
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Revised: U. Lundqvist and J.D. Franckowiak. 2007. Barley Genet. Newsl. 37:284. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:139-140.
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BGS 615, Waxy spike 1, wxs1
Stock number: BGS 615 Locus name: Waxy spike 1 Locus symbol: wxs1 Previous nomenclature and gene symbolization:
None. Inheritance:
Monofactorial recessive (2, 3). Location in chromosomes 7H or 2HL (1), based on SNP markers retained in the Bowman backcross-derived line BW917, between 1_0924 to 2_02472 (positions 107.42 to 159.73 cM) in 7H and between 1_1118 and 2_1008 (positions 180.85 to 204.58 cM) in 2HL (1).
Description: Plants with the wxs1.a gene accumulate excess surface waxes on the spike. Spikes appear normal at heading, but gradually they accumulate more surface waxes. Spikes have a distinctive white hue prior to ripening. The grain has an irregular surface caused by poor adherence of the lemma to the caryopsis. The wxs1.a plants of Bowman backcross-derived line BW917 were slightly shorter and lodge easier than their normal sibs. Their kernel weights were 10 to 20% lighter and grain yield was reduced by about 30% (2). Expression of wxs1.a gene is suppressed by the glossy spike mutants (2).
Origin of mutant: A sodium azide induced mutant in Steptoe (CIho 15229) (3).
Mutational events: wxs1.a in Steptoe (FN16) (3).
Mutant used for description and seed stocks: wxs1.a in Steptoe; wxs1.a in Bowman (PI 483237)*5 (GSHO 3432, BW917, NGB 22348).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Kleinhofs, A. (Personal communications).
Prepared: J.D. Franckowiak. 2002. Barley Genet. Newsl. 32:205.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:141.
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BGS 626, Scirpoides leaf-a, scl-a
Stock number: BGS 626 Locus name: Scirpoides leaf-a Locus symbol: scl-a Previous nomenclature and gene symbolization:
Scirpoides leaf-6 = scl.6 (3). Scirpoides leaf-1 = scl.1 (3). Scirpoides leaf-2 = scl.2 (3). Scirpoides leaf-4 = scl.4 (3).
Inheritance: Monofactorial recessive (2). Located in chromosome 1HL (1), associated with SNP markers 1_0433 to 1_0396 (positions 139.25 to 143.47 cM) in 1HL of Bowman backcross-derived line BW778; associated with SNP marker 2_0780 (position 154.89 cM) in 1HL of the Bowman backcross-derived line BW775; associated with SNP markers 1_0006 and 2_1126 (position 110.10 cM) in 1HL of the Bowman backcross-derived line BW776 (1), likely in 1H bin 11.
Description: Leaf blades of the scl-a plants are folded inward and are narrow compared to those of normal sibs. Folding of the leaf blade persists until maturity (2, 3). Plants of Bowman backcross-derived line BW778 were slightly shorter than Bowman, kernels were slightly thinner and lighter, and grain yields were about 20% lower. Plants of BW778 had inward folded leaf blades that were about 2/3 as wide as those of Bowman (2). The mutant stocks scl.1, scl.2, and scl.4 are alleles based on allelism tests (2). Their phenotypic similarities to the scl-a.6 mutant and SNP markers retained in the same region of 1HL suggesting they are alleles at the scl-a locus (1, 2).
Origin of mutant: A neutron induced mutant in Foma (CIho 11333) (3).
Mutational events: scl-a.6 in Foma (NGB 117105) (3); scl-a.1 (NGB 117100), -a.2 (NGB 117101), -a.4 (NGB 117102) in Bonus (PI 189763) (1, 2, 3).
Mutant used for description and seed stocks: scl-a.6 in Foma (NGB 117105), scl-a.6 in Bowman (PI 483237)*5 (GSHO 3431), in Bowman*6 (BW778, NGB 20755); scl-a.1 in Bonus (NGB 117100), in Bowman*4 (BW775, NGB 22242); scl-a.2 in Bonus (NGB 117101), in Bowman*5 (BW776, NGB 22243); scl-a.4 in Bonus (NGB 117102), in Bowman*5 (BW777, NGB 20753).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished).
Prepared: U. Lundqvist and J.D. Franckowiak. 2002. Barley Genet. Newsl. 32:127. U. Lundqvist and J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:142.
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BGS 635, Necroticans 7 nec7
Stock number: BGS 635 Locus name: Necroticans 7 Locus symbol: nec7 Previous nomenclature and gene symbolization:
Necroticans 45 = nec-45 (3. 4). Inheritance:
Monofactorial recessive (4). Location in chromosomes 1H, 6HS, or 7HS (1), based on SNP markers retained in the Bowman backcross-derived line BW634, between 1_0757 and 2_0990 (positions 37.21 to 112.25 cM) in 1H, between 1_0799 and 1_0129 (positions 50.33 to 70.15 cM) in 6HS, and between 1_0949 and 2_0245 (positions 0.0 to 13.19 cM) in 7HS (1).
Description: As each tiller of plants homozygous for the nec7 gene starts to head, dark brown blotches become visible on the leaf blades and sheaths. The blotches are variable in size and irregular in shape. They gradually enlarge and partially coalesce. Blotches range in size from small spots to large ones that may include 1/5 of the leaf blade or more. Some blotches are partially surrounded by a golden or yellowish halo before that region of the leaf dies (2, 4). When nec7 plants are grown in greenhouses, formation of the dark brown blotches is associated with a distinct musty odor, which persists even after plants ripen (2). When grown under field conditions or in well-vent glasshouses, little development of necrotic spots or blotches occurs. The nec7.45 plants of Bowman backcross-derived line BW634 are 10-15 shorter and have slightly fewer kernels per spike. Kernels are slightly thinner and grain yields are 2/3 to 3/4 of normal (2).
Origin of mutant: An ethyl methanesulfonate induced mutant in Kristina (NGB 1500) (4).
Mutational events: nec7.45 (nec-45) (NGB 115306, GSHO 2420) in Kristina (4).
Mutant used for description and seed stocks: nec7.45 in Kristina (GSHO 2420, NGB 115306); nec7.45 in Bowman (PI 483237)*4 (BW634, NGB 22200).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Gustafsson, Å., A. Hagberg, U. Lundqvist, and G. Persson. 1969. A proposed system of symbols for the collection of barley mutants at Svalöv. Hereditas 62:409-414. 4. Lundqvist, U. (Unpublished).
Prepared: U. Lundqvist and J. D. Franckowiak. 2002. Barley Genet. Newsl. 32:136.
Revised: J.D. Franckowiak. 2010. Barley Genet. Newsl. 40:143.
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BGS 676, Chlorina seedling 16, fch16
Stock number: BGS 676 Locus name: Chlorina seedling 16 Locus symbol: fch16 Previous nomenclature and gene symbolization:
Chlorina seedling 117 = clo.117 (3, 4). Inheritance:
Monofactorial recessive (3, 4). Located in chromosome 2HS (1), based on association with SNP markers 2_1187 to 2_1338 (positions 51.52 to 74.97 cM) in 2HS of the Bowman backcross-derived line BW185 (1), in 2H bin 05 or 06.
Description: Seedling and immature leaves are pale yellow-green (chlorophyll deficient) in color and gradually become darker. A slight yellow green color may be observed prior to heading (2, 3). Leaf blades of the Bowman backcross-derived line BW185 are slightly wider than those of Bowman. The spikes of BW185 plants were observed to have slightly few kernels than Bowman in some trials. The fch16.117 plants are 10 to 20% shorter than Bowman and showed about a four day delay in anthesis. Kernel weights and grain yields were about normal (2).
Origin of mutant: A sodium azide induced mutant in Bonus (PI 189763) (3, 5).
Mutational events: fch16.117 (NGB 22623) in Bonus (3, 4, 5).
Mutant used for description and seed stocks: fch16.117 in Bonus (NGB 22623); fch16.117 in Bowman (PI 483237)*5 (BW185, NGB 22017).
References: 1. Druka, A., J. Franckowiak, U. Lundqvist, N. Bonar, J. Alexander, K. Houston, S. Radovic, F. Shahinnia, V. Vendramin, M. Morgante, N. Stein, and R. Waugh. 2010. Genetic dissection of barley morphology and development. Plant Physiology. Epubl. 2010 November 18, 2010 as DOI:10.1104/pp110.166249. 2. Franckowiak, J.D. (Unpublished). 3. Lundqvist, U. (Unpublished). 4. Simpson, D.J., O. Machold, G. Høyer-Hansen, and D. von Wettstein. 1985. Chlorina mutants of barley (Hordeum vulgare L.). Carlsberg Res. Commun. 50:223-238. 5. Simpson, D.J., and D. von Wettstein. 1992. Coordinator’s report: Nuclear genes affecting the chloroplast. Stock list of mutants kept at Carlsberg Laboratory. Barley Genet. Newsl. 21:102-108.
Prepared: J.D. Franckowiak and U. Lundqvist. 2010. Barley Genet. Newsl. 40:144.
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Table 2. A listing of Barley Genetic Stock (BGS) descriptions in recent issues of the Barley Genetics Newsletter with chromosome location information, recommended locus symbols, locus names, and stock location information.
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
1 brh1 br, ari-i 7HS Brachytic 1 37:188 25
2 fch12 fc, clo-fc 7HS Chlorina seedling 12 37:190 36
3 yvs2 yc 7HS Virescent seedling 2 26: 46 41
4 abo8 ac2, alb-m 7HS Albino seedling 8 26: 47 61
5 fch8 f8 7HS Chlorina seedling 8 26: 48 40
6 vrs1 v, Int-d 2HL Six-rowed spike 1 37:192 196
7 nud1 n, h 7HL Naked caryopsis 1 37:195 115
9 dsp1 l 7HS Dense spike 1 26: 53 1232
10 lks2 lk2, lk4 7HL Short awn 2 37:197 566
11 ubs4 u4, ari-d 7HL Unbranched style 4 26: 56 567
12 des1 lc 7H Desynapsis 1 26: 57 592
13 des4 des4 7H Desynapsis 4 26: 58 595
14 des5 des5 7H Desynapsis 5 26: 59 596
15 blx1 bl 4HL Non-blue aleurone xenia 1 26: 60 185
16 wax1 wx, glx 7HS Waxy endosperm 1 26: 61 908
17 fch4 f4, yv 7HL Chlorina seedling 4 26: 63 1214
18 fch5 f5, yv2 7HS Chlorina seedling 5 26: 64 1215
19 blx2 bl2 7HS Non-blue aleurone xenia 2 26: 65 209
20 Rym2 Ym2 7HL Reaction to BaYMV 2 26: 66 984
21 Run1 Un 7HS Reaction to Ustilago nuda 1 26: 67 1324
22 Rsg1 Grb 7H Reaction to Schizaphis graminum 1
37:199 1317
23 wnd1 wnd 7HS Winding dwarf 1 26: 69 2499
24 fst3 fs3 7HS Fragile stem 3 26: 70 1746
25 Xnt1 Xa 7HL Xantha seedling 1 26: 71 1606
26 snb1 sb 7HS Subnodal bract 1 26: 72 1217
27 lbi3 lb3 7HL Long basal rachis internode 3 26: 73 536
28 ert-a ert-a 7HS Erectoides-a 26: 74 468
29 ert-d ert-d 7HS Erectoides-d 26: 76 475
30 ert-m ert-m 7HS Erectoides-m 26: 78 487
31 sex6 sex6 7HS Shrunken endosperm xenia 6 26: 80 2476
32 Rph9 Pa9 5HL Reaction to Puccinia hordei 9 37:201 1601
33 ant1 rs, rub-a 7HS Anthocyanin-less 1 26: 82 1620
34 msg50 msg,,hm 7HL Male sterile genetic 50 26: 83 2404
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
35 rsm1 sm 7HS Reaction to BSMV 1 26: 84 2492
36 xnt4 xc2 7HL Xantha seedling 4 26: 85 42
37 xnt9 xan,,i 7HL Xantha seedling 9 26: 86 584
38 smn1 smn 7HS Seminudoides 1 32: 78 1602
39 mss2 mss2 7HS Midseason stripe 2 32: 79 2409
40 prm1 prm 7HS Premature ripe 1 32: 80 2429
41 brh7 brh.w 5HS Brachytic 7 37:203 1687
42 Pyr1 Pyr1 7HS Pyramidatum 1 32: 82 1581
43 mov1 mo5 7HL Multiovary 1 35:185
44 brh16 brh.v 7HL Brachytic 16 37:204 1686
51 rtt1 rt 2HS Rattail spike 1 26: 87 216
52 fch15 or 2HS Chlorina seedling 15 40: 48 49
53 abo2 a2 2HS Albino seedling 2 26: 89 70
55 fch1 f, lg 2HS Chlorina seedling 1 40: 49 112
56 wst4 wst4 2HL White streak 4 26: 91 568
57 eog1 e, lep-e 2HL Elongated outer glume 1 26: 92 29
58 vrs1 lr, vlr 2HL Six-rowed spike 1 26: 94 153
59 gpa1 gp, gp2 2HL Grandpa 1 26: 95 1379
60 lig1 li, aur-a 2HL Liguleless 1 37:205 6
61 trp1 tr 2HL Triple awned lemma 1 26: 97 210
62 sbk1 sk, cal-a 2HS Subjacent hood 1 40: 51 267
63 yvs1 yx, alb-c2 2HS Virescent seedling 1 26: 99 68
64 des7 des7 2H Desynapsis 7 26:100 598
65 Eam1 Ppd-H1, Ea
2HS Early maturity 1 26:101 1316
66 vrs1 Vd 2HL Two-rowed spike 1 26:103 346
67 vrs1 Vt 2HL Deficiens 1 26:104 684
68 Pvc 1 Pc 2HL Purple veined lemma 1 26:105 132
69 Gth 1 G 2HL Toothed lemma 1 26:106 309
70 Rph1 Pa 2H Reaction to Puccinia hordei 1 26:107 1313
71 com2 bir2 2HS Compositum 2 40: 53 1703
72 glo-c glo-c 2H Globosum-c 26:109 1329
73 fol-a fol-a 2HL Angustifolium-a 26:110 1744
74 flo-c flo-c 2HS Extra floret-c 26:111 1743
75 Lks1 Lk 2HL Awnless 1 26:112 44
76 Pre2 Re2, P 2HL Red lemma and pericarp 2 26:113 234
77 hcm1 h 2HL Short culm 1 26:115 2492
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
78 mtt4 mt,,e, mt 2HL Mottled leaf 4 26:116 1231
79 wst7 rb 2HL White streak 7 37:207 247
80 ant2 pr, rub 2HL Anthocyanin-less 2 26:118 1632
81 gsh7 gs7 1H/2H/5H
Glossy sheath 7 40: 55 1759
82 Zeo1 Knd 2HL Zeocriton 1 37:209 1613
83 sld2 sld2 2HS Slender dwarf 2 26:121 2491
84 mss1 mss 2H Midseason stripe 1 26:122 1404
85 yst4 yst4 2HL Yellow streak 4 37:210 2502
86 fch13 f13 Chlorina seedling 13 26:124 16
87 fch14 f14 2HL Chlorina seedling 14 37:211 1739
88 Rph2 Pa2, A 5HS Reaction to Puccinia hordei 2 37:212 1593
89 ari-g ari-g, lk10 Breviaristatum-g 26:128 1655
90 ert-j ert-j 2H Erectoides-j 26:129 484
91 ert-q ert-q 2H Erectoides-q 26:130 1562
92 ert-u ert-u, br5 2H Erectoides-u 26:131 496
93 ert-zd ert-zd, br7 2H Erectoides-zd 26:132 504
94 abo4 a4 2H Albino seedling 4 26:133 167
95 abo13 alb,,p 2HL Albino seedling 13 26:134 585
96 Rph15 Rph16 2HS Reaction to Puccinia hordei 15 37:214 1586
97 acr1 acr 2HL Accordion rachis 1 40: 56 1617
98 Eam6 Ea6, Ea 2HS Early maturity 6 37:216
99 lin1 s, rin 2HL Lesser internode number 1 32: 88 2492
100 sld4 sld.d 7HS Slender dwarf 4 37:218 2479
101 als1 als 3HL Absent lower laterals 1 37:219 1065
102 uzu1 uz, u 3HL Uzu 1 or semi brachytic 1 37:220 1300
104 yst1 yst, ys 3HS Yellow streak 1 26:138 1140
105 xnt3 xc, vir-l 3HS Xantha seedling 3 26:139 66
106 abo6 ac 3HS Albino seedling 6 26:140 30
107 wst1 wst, wst3 3HL White streak 1 26:141 159
108 alm1 al, ebu-a 3HS Albino lemma 1 37:222 270
109 yst2 yst2 3HS Yellow streak 2 26:144 570
111 dsp10 lc 3HS Dense spike 10 26:145 71
112 abo9 an 3HS Albino seedling 9 26:146 348
113 xnt6 xs 3HS Xantha seedling 6 26:147 117
114 cur2 cu2 3HL Curly 2 26:148 274
115 btr1 bt1 3HS Non-brittle rachis 1 26:149 1233
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
116 btr2 bt2 3HS Non-brittle rachis 2 26:150 842
117 fch2 f2, lg5 3HL Chlorina seedling 2 26:151 107
118 lnt1 rnt, int-l 3HL Low number of tillers 1 26:153 833
119 des2 ds 3H Desynapsis 2 26:154 593
120 zeb1 zb 3HL Zebra stripe 1 26:155 1279
121 Rph3 Pa3 7HL Reaction to Puccinia hordei 3 26:156 1316
122 Rph5 Pa5, Pa6 3HS Reaction to Puccinia hordei 5 37:224 1597
123 Ryd2 Yd2 3HL Reaction to BYDV 2 26:158 1315
124 vrs4 mul, int-e 3HL Six-rowed spike 4 26:159 775
125 lzd1 lzd, dw4 3HS Lazy dwarf 1 26:161 1787
126 sld1 dw1 3HL Slender dwarf 1 26:162 2488
127 Pub1 Pub 3HL Pubescent leaf blade 1 26:163 1576
128 sca1 sca 3HS Short crooked awn 1 26:164 2439
129 wst6 wst,,j 3HL White streak 6 26:165 2500
130 eam10 easp 3HL Early maturity 10 37:226 2504
131 gra-a gran-a 3HL Granum-a 26:167 1757
132 ari-a ari-a 3HS Breviaristatum-a 26:168 1648
133 sdw2 sdw-b 3HL Semidwarf 2 26:169 2466
134 ert-c ert-c 3HL Erectoides-c 26:170 471
135 ert-ii ert-ii 3HL Erectoides-ii 26:172 483
136 Rph7 Pa7, Pa5 3HS Reaction to Puccinia hordei 7 37:228 1318
137 Rph10 Rph10 3HL Reaction to Puccinia hordei 10 26:174 1588
138 nec4 nec4 3H Necrotic leaf spot 4 26:175
139 nec5 nec5 3H Necrotic leaf spot 5 26:176
140 xnt8 xan,,h 3HS Xantha seedling 8 26:177 582
141 rym5 Ym 3HL Reaction to barley yellow mosaic virus 5
32: 90
142 brh8 brh.ad 3HS Brachytic 8 37:230 1671
143 sex8 sex.j 3HS Shrunken endosperm 8 32: 93 2471
144 sld5 sld5 3HS Slender dwarf 5 32: 94 2483
146 cal-d cal-d 3H Calcaroides-d 40: 58 1698
147 mov2 mo 3HS Multiovary 2 35:190
148 brh14 brh.q 3HL Brachytic 14 37:231 1682
149 Rpc1 3H Reaction to Puccinia coronata var. hordei 1
37:232 1601
150 scl-b scl.5 3H/6H Scirpoides leaf-b 40: 60
151 fch9 f9 4HS Chlorina seedling 9 26:178 571
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
152 Kap1 K 4HS Hooded lemma 1 26:179 985
155 glf1 gl, cer-zh 4HL Glossy leaf 1 40: 61 98
156 lbi2 lb2, ert-i 4HL Long basal rachis internode 2 26:183 572
157 brh2 br2, ari-l 4HL Brachytic 2 37:235 573
158 yhd1 yh 4HL Yellow head 1 26:185 574
160 min2 en-min Enhancer of minute 1 26:186 266
161 min1 min 4HL Semi-minute dwarf 1 26:187 987
163 sgh1 sh1 4HL Spring growth habit 1 26:188 575
164 Hln1 Hn 4HL Hairs on lemma nerves 1 26:189 576
165 glf3 gl3, cer-j 4HL Glossy leaf 3 26:190 577
166 msg25 msg,,r 4HL Male sterile genetic 25 26:192 744
167 rym1 Ym 4HL Reaction to barley yellow mosaic virus 1
32: 96
168 glo-a glo-a 4HS Globosum-a 26:194 1328
170 lgn3 lg3 4HL Light green 3 26:195 171
171 lgn4 lg4, lg9 4HL Light green 4 26:196 681
172 lks5 lk5, ari-c 4HL Short awn 5 26:197 1297
173 blx3 bl3 4HL Non-blue aleurone xenia 3 26:198 2506
174 blx4 bl4 4HL Non-blue (pink) aleurone xenia 4 26:199 2507
176 ovl1 ovl 4H Ovaryless 1 35:191
178 int-c i, v5 4HS Intermedium spike-c 37:237 776
179 Hsh1 Hs 4HL Hairy leaf sheath 1 37:240 986
180 sid1 nls 4HL Single internode dwarf 1 26:203 2477
181 eam9 ea,,c 4HL Early maturity 9 26:204 1732
182 flo-a flo-a Extra floret-a 26:205 1741
183 Ynd1 Yn 4HS Yellow node 1 32: 98
184 Zeo3 Zeo.h 4HL Zeocriton 3 32: 99 1611
185 brh5 brh.m 4HS Brachytic 5 37:242 1678
186 sld3 ant17.567 4HS Slender dwarf 3 40: 63 2480
187 brh9 brh.k 4HS Brachytic 9 37:244 1676
189 Acr2 Acr, lax 4HL Accordion rachis 2 40: 65 1071
190 tfm1 1HL Thick filament 1 40: 67
191 fch17 vy 1H/3H Chlorina seedling 17 40: 68 1079
201 fch7 f7 1HL Chlorina seedling 7 26:206 4
202 trd1 t, bra-c 1HL Third outer glume 1 26:207 227
203 Blp1 B 1HL Black lemma and pericarp 1 40: 69 988
207 abo1 at 1HL Albino seedling 1 26:210 51
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
208 fst2 fs2 1HL Fragile stem 2 26:211 578
213 Sgh3 Sh3 1HL Spring growth habit 3 26:212 764
214 eam8 eak, mat-a 1HL Early maturity 8 37:247 765
215 des6 des6 1H Desynapsis 6 26:216 597
218 Rph4 Pa4 1HS Reaction to Puccinia hordei 4 26:217 1314
220 fch3 f3 1HS Chlorina seedling 3 40: 71 851
221 wst5 wst5 1HL White streak 5 26:219 591
222 nec1 sp,,b 1HL Necrotic leaf spot 1 37:251 989
223 zeb3 zb3, zbc 1HL Zebra stripe 3 40: 72 1451
224 ert-b ert-b 1HL Erectoides-b 40: 74 470
225 clh1 clh 7H/5H Curled leaf dwarf 1 40: 76 1212
226 rvl1 rvl 1HL Revoluted leaf 1 40: 77 608
227 sls1 sls 1HL Small lateral spikelet 1 40: 78 2492
228 Sil1 Sil 1H Subcrown internode length 1 40: 79 1604
229 cud2 cud2 1HL Curly dwarf 2 26:227 1712
230 glo-e glo-e 1HL Globosum-e 26:228 1755
231 cur5 cu5 1HS Curly 5 26:229 1710
232 Lys4 sex5 1HS High lysine 4 40: 80 2475
233 xnt7 xan,,g 1HL Xantha seedling 7 26:231 581
234 mov3 mo-a 1H Multiovary 3 32:102
235 lel1 lel 1HL Leafy lemma 1 32:103 1780
238 ari-t ari-25 1H Breviaristatum-t 40: 82
239 sci-b sci-4 1H/6H Scirpoides-b 40: 83
240 sdw6 sdw.f 1H/7H Semidwarf 6 40: 84 2449
241 Acr3 acr 1HL Accordionrachis 3 40: 85 1071
242 sld6 sld.g 1H Slender dwarf 6 40: 87 2482
251 mul2 mul2 6HL Multiflorus 2 26:232 1394
252 eam7 ea7, ec 6HS Early maturity 7 26:233 579
253 cul2 uc2 6HL Uniculm 2 37:253 531
254 rob1 o, rob-o 6HS Orange lemma 1 37:255 707
255 xnt5 xn 6HL Xantha seedling 5 26:237 43
257 raw5 r,,e 6HL Smooth awn 5 26:238 785
258 dsp9 l9, ert-e 6HL Dense spike 9 26:239 1774
260 fch11 f11 6HL Chlorina seedling 11 26:240 1738
261 nec2 nec2 6HS Necrotic leaf spot 2 26:241 1224
262 cur1 cu1 6HL Curly 1 26:242 1705
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
263 cur3 cu3 6HL Curly 3 26:243 1707
264 mtt5 mt,,f 6HL Mottled leaf 5 26:244 2410
265 nec3 nec3 6HS Necrotic leaf spot 3 26:245 1330
266 ert-e ert-e, dsp9
6HL Erectoides-e 37:257 477
267 Rph11 Rph11 6HL Reaction to Puccinia hordei 11 26:247 1589
268 lax-b lax-b 6HL Laxatum-b 26:248 1776
269 lys6 lys6 6H High lysine 6 26:249 1786
270 abo14 alb,,q 6HL Albino seedling 14 26:250 586
271 abo15 alb,,t 6HS Albino seedling 15 26:251
301 fst1 fs 5HL Fragile stem 1 26:252 629
302 mtt2 mt2 5HL Mottled leaf 2 26:253 1398
303 var3 va3 5HL Variegated 3 26:254 1277
304 wst2 wst2 5HL White streak 2 26:255 766
305 crm1 cm 5HL Cream seedling 1 26:256 20
306 var1 va 5HL Variegated 1 37:259 1278
308 lbi1 lb, rac-a 5HL Long basal rachis internode 1 40: 88 580
309 Sgh2 Sh2 5HL Spring growth habit 2 26:259 770
311 dex1 sex2 5HS Defective endosperm xenia 1 26:260
312 raw1 r 5HL Smooth awn 1 26:261 27
313 fch6 f6, yv 5HL Chlorina seedling 6 26:262 1390
314 vrs2 v2 5HL Six-rowed spike 2 26:263 773
315 vrs3 v3, int-a 1HL Six-rowed spike 3 40: 90 774
317 ddt1 ddt 5HS Reaction to DDT 1 26:266 331
319 rpg4 rpg4 5HL Reaction to Puccinia graminis 4 26:267 2438
320 int-b int-b 5HL Intermedium spike-b 26:268 1764
321 srh1 s, l 5HL Short rachilla hair 1 26:269 27
322 dsk1 dsk 5HL Dusky 1 26:270 1714
323 nld1 nld 5HL Narrow leafed dwarf 1 26:271 769
324 cud1 cud 5HL Curly dwarf 1 26:272 1711
325 crl1 crl, cl Curly lateral 1 26:273 1211
326 blf1 bb 5HL Broad leaf 1 26:274 1393
327 flo-b flo-b 5HL Extra floret-b 26:275 1742
328 ari-e ari-e 5HL Breviaristatum-e 26:276 1653
329 ari-h ari-h 5HL Breviaristatum-h 26:277 1656
330 ert-g ert-g, br3 5HL Erectoides-g 26:278 479
331 ert-n ert-n 5HL Erectoides-n 26:279 488
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Table 2. (continued)
BGS no.
Locus symbol* Chr. Locus name or phenotype
Descr. vol. p.
GSHO no.‡ Rec. Prev. loc.†
332 Ert-r Ert-r Erectoides-r 26:280 492
333 Rph12 Rph12 5HL Reaction to Puccinia hordei 12 26:281 1590
334 raw6 r6 5HL Smooth awn 6 26:282 2437
335 msg49 msg,,jw 5HL Male sterile genetic 49 26:283 2402
336 glo-b glo-b 5HL Globosum-b 26:284 1326
337 blf2 bb2, nlh 5HL Broad leaf 2 26:285 1667
338 lys1 lys 5HL High lysine 1 26:286 1784
339 lys3 sex3 5HL High lysine 3 26:287 1785
340 raw2 r2 5HL Smooth awn 2 26:289 27
341 abo12 alb,,o 5HS Albino seedling 12 26:290 583
342 glo-f glo-e 5HL Globosum-f 26:291
343 Lfb1 Lfb 5HL Leafy bract 1 28: 30 1577
344 var2 va2 5HL Variegated 2 32:104 2496
345 rym3 ym3 5HS Reaction to barley yellow mosaic virus 3
32:105
346 yst5 yst5 5HL Yellow streak 5 32:107 2501
347 mnd4 m4 5HL Many noded dwarf 4 32:108 1798
348 Eam5 Ea5 5HL Early maturity 5 37:260
349 brh4 brh.j 2HL Brachytic 4 37:262 1675
350 brh6 brh.s 5HS Brachytic 6 37:263 1683
351 gsh1 gs1, cer-q 2HS Glossy sheath 1 40: 92 735
352 gsh2 gs2, cer-b 3HL Glossy sheath 2 26:294 736
353 gsh3 gs3, cer-a 7HS Glossy sheath 3 26:296 737
354 gsh4 gs4, cer-x 6HL Glossy sheath 4 26:298 738
355 gsh5 gs5, cer-s 2HL Glossy sheath 5 26:300 739
356 gsh6 gs6, cer-c 2HS Glossy sheath 6 40: 95 740
357 msg1 ms1 1HL Male sterile genetic 1 40: 98 1810
358 msg2 ms2 2HL Male sterile genetic 2 26:306 2371
359 msg3 ms3 2HS Male sterile genetic 3 26:307 1130
360 msg4 ms4 1H Male sterile genetic 4 40:100 2392
361 msg5 ms5 3HS Male sterile genetic 5 26:309 2403
362 msg6 ms6 6HS Male sterile genetic 6 26:310 2405
363 msg7 ms7 5HL Male sterile genetic 7 26:311 2406
364 msg8 ms8 5HL Male sterile genetic 8 26:312 2407
365 msg9 ms9 2HS Male sterile genetic 9 26:313 2408
366 msg10 ms10 7HS Male sterile genetic 10 26:314 1811
367 msg11 ms11 Male sterile genetic 11 26:315 1812
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
368 msg13 ms13 Male sterile genetic 13 26:316 1813
369 msg14 ms14 7HS Male sterile genetic 14 26:317 1814
370 msg15 ms15 Male sterile genetic 15 26:318 1815
371 msg16 ms16 5HS Male sterile genetic 16 26:319 1816
372 msg17 ms17 Male sterile genetic 17 26:320 1817
373 msg18 ms18 5HL Male sterile genetic 18 26:321 1818
374 msg19 ms19 5HS Male sterile genetic 19 26:322 1819
375 msg20 ms20 1H Male sterile genetic 20 26:323 2372
376 msg21 ms21 1HL Male sterile genetic 21 40:101 2373
377 seg1 se1 7HL Shrunken endosperm genetic 1 37:264 750
378 seg2 se2 7HS Shrunken endosperm genetic 2 26:326 751
379 seg3 se3 3H Shrunken endosperm genetic 3 37:265 752
380 seg4 se4 7HL Shrunken endosperm genetic 4 37:267 753
381 seg5 se5 7HS Shrunken endosperm genetic 5 26:329 754
382 sex1 lys5 6HL Shrunken endosperm xenia 1 26:330 755
383 msg22 ms22 7H Male sterile genetic 22 26:331 741
384 msg23 ms23 7HL Male sterile genetic 23 26:332 2375
385 msg24 ms24 4HL Male sterile genetic 24 26:333 2376
386 des3 des3 Desynapsis 3 26:334 594
387 des8 des8 Desynapsis 8 26:335 599
388 des9 des9 Desynapsis 9 26:336 600
389 des10 des10 Desynapsis 10 26:337 601
390 des11 des11 Desynapsis 11 26:338 602
391 des12 des12 Desynapsis 12 26:339 603
392 des13 des13 Desynapsis 13 26:340 604
393 des14 des14 Desynapsis 14 26:341 605
394 des15 des15 Desynapsis 15 26:342 606
395 msg26 msg26 7HS Male sterile genetic 26 26:343 745
396 seg6 se6 3HL Shrunken endosperm genetic 6 37:268 2467
397 seg7 se7 Shrunken endosperm genetic 7 37:269 2468
399 cer-d cer-d Eceriferum-d 26:346 425
400 cer-e cer-e 1HL Eceriferum-e 40:102 1518
401 cer-f cer-f 1H Eceriferum-f 40:104 427
402 cer-g cer-g 2HL Eceriferum-g 26:349 428
403 cer-h cer-h Eceriferum-h 26:351 429
404 cer-i cer-i 5HL Eceriferum-i 26:352 430
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
405 cer-k cer-k 7HS Eceriferum-k 26:354 432
406 cer-l cer-l Eceriferum-l 26:355 433
407 cer-m cer-m Eceriferum-m 26:356 434
407 cer-m cer-m Eceriferum-m 26:356 434
408 cer-n gs9 2HL Eceriferum-n 26:357 435
409 cer-o cer-o 1HL Eceriferum-o 40:106 436
410 cer-p cer-p Eceriferum-p 26:360 437
411 cer-r cer-r 3HL Eceriferum-r 26:361 439
412 cer-t cer-t 5HL Eceriferum-t 26:362 441
413 gsh8 cer-u, gs8 2HS Glossy sheath 8 40:107 442
414 cer-v cer-v 2HS Eceriferum-v 26:366 443
415 cer-w cer-w 5HL Eceriferum-w 26:367 1519
417 cer-y cer-y Eceriferum-y 26:368 446
418 cer-z cer-z 7HS Eceriferum-z 26:369 447
419 cer-za cer-za 5HL Eceriferum-za 26:370 1521
420 cer-zb cer-zb Eceriferum-zb 26:371 1522
421 cer-zc cer-zc Eceriferum-zc 26:372 450
422 cer-zd cer-zd 3HL Eceriferum-zd 40:110 451
423 cer-ze gl5 7HS Eceriferum-ze 26:374 452
424 cer-zf cer-zf Eceriferum-zf 26:376 453
425 cer-zg cer-zg 4HL Eceriferum-zg 26:377 454
427 cer-zi cer-zi 1HL Eceriferum-zi 26:378 456
428 cer-zj cer-zj 5HL Eceriferum-zj 26:379 457
429 cer-zk cer-zk 2H Eceriferum-zk 26:381 458
430 cer-zl cer-zl Eceriferum-zl 26:382 459
431 cer-zn cer-zn 1H Eceriferum-zn 40:112 1523
432 cer-zo cer-zo Eceriferum-zo 26:384 462
433 cer-zp cer-zp 5HL Eceriferum-zp 26:385 463
434 cer-zq cer-zq Eceriferum-zq 26:386 1524
435 cer-zr cer-zr Eceriferum-zr 26:387 1525
436 cer-zs cer-zs Eceriferum-zs 26:388 1526
437 cer-zt cer-zt 2HS Eceriferum-zt 37:270 1527
438 cer-zu cer-zu 1H Eceriferum-zu 40:114 1528
439 cer-zv cer-zv Eceriferum-zv 26:391 1529
440 cer-zw cer-zw Eceriferum-zw 26:392 1530
441 cer-zx cer-zx Eceriferum-zx 26:393 1531
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
442 cer-zy cer-zy 1HS Eceriferum-zy 40:116 1532
443 cer-zz cer-zz Eceriferum-zz 26:395 1533
444 cer-ya cer-ya 3HS Eceriferum-ya 26:396 1534
445 cer-yb cer-yb 2HL Eceriferum-yb 26:397 1535
446 cer-yc cer-yc Eceriferum-yc 26:398 1536
447 cer-yd cer-yd 3HS Eceriferum-yd 26:399 1537
448 cer-ye cer-ye 5HL Eceriferum-ye 26:400 1538
449 cer-yf cer-yf Eceriferum-yf 37:271 1539
450 cer-yg cer-yg 7HS Eceriferum-yg 26:402 1540
451 cer-yh cer-yh 3HS Eceriferum-yh 26:403 1541
454 blx5 bl5 7HL Non-blue aleurone xenia 5 26:404 2509
455 seg8 seg8 7H Shrunken endosperm genetic 8 37:272 2469
460 cur4 cu4,glo-d 2HL Curly 4 26:406 1708
461 zeb2 zb2, f10 4HL Zebra stripe 2 26:407 93
462 yst3 yst,,c 3HS Yellow streak 3 26:409 48
463 gig1 gig, sf 2H? Gigas 1 26:410 1650
464 msg27 msg,,ae 2HL Male sterile genetic 27 26:411 2379
465 msg28 msg,,as 6H Male sterile genetic 28 26:412 2380
466 msg29 msg,,a 5HL Male sterile genetic 29 26:413 2381
467 msg30 msg,,c 7HL Male sterile genetic 30 26:414 2382
468 msg31 msg,,d 1HL Male sterile genetic 31 40:117 2383
469 msg32 msg,,w 7H Male sterile genetic 32 26:416 2384
470 msg33 msg,,x 2HS Male sterile genetic 33 26:417 2385
471 msg34 msg,,av 6H Male sterile genetic 34 26:418 2386
472 abr1 abr 2HL Accordion basal rachis internode 1
26:419 1563
473 com1 bir1 5HL Compositum 1 40:118 1702
474 lax-a lax-a 5HL Laxatum-a 40:120 1775
475 lax-c lax-c 6HL Laxatum-c 26:423 1777
498 msg35 msg,,dr 2HL Male sterile genetic 35 26:424 2387
499 msg36 msg,,bk 6HS Male sterile genetic 36 26:425 2388
500 msg37 msg,,hl Male sterile genetic 37 26:426 2389
501 msg38 msg,,jl Male sterile genetic 38 26:427 2390
502 msg39 msg,,dm 3HL Male sterile genetic 39 40:122 2391
503 msg40 msg,,ac 6H Male sterile genetic 40 26:429 2393
504 msg41 msg,,aj Male sterile genetic 41 26:430 2394
505 msg42 msg,,db 3H Male sterile genetic 42 26:431 2395
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
506 msg43 msg,,br Male sterile genetic 43 26:432 2396
507 msg44 msg,,cx Male sterile genetic 44 26:433 2397
508 msg45 msg,,dp Male sterile genetic 45 26:434 2398
509 msg46 msg,,ec Male sterile genetic 46 26:435 2399
510 msg47 msg,,ep Male sterile genetic 47 26:436 2400
511 Rpg1 T 7HS Reaction to Puccinia graminis 1 26:437 701
512 Rpg2 T2 Reaction to Puccinia graminis 2 26:439 187
513 xnt2 xb Xantha seedling 2 26:440 2
515 Rsp1 Sep Reaction to Septoria passerinii 1 26:441 2510
516 Rsp2 Sep2 Reaction to Septoria passerinii 2 37:275 2511
517 Rsp3 Sep3 Reaction to Septoria passerinii 3 37:276 2512
518 sdw1 denso 3HL Semidwarf 1 37:277 2513
519 mnd1 m Many-noded dwarf 1 26:446 253
520 msg48 msg,,jt 1H Male sterile genetic 48 40:123 2401
521 mtt1 mt 1HS Mottled leaf 1 26:448 622
522 cer-yi cer-yi Eceriferum-yi 26:449 1542
523 cer-yj cer-yj 1HS Eceriferum-yj 40:124 1543
524 cer-yk cer-yk Eceriferum-yk 26:451 1544
525 cer-yl cer-yl Eceriferum-yl 26:452 1545
526 cer-ym cer-ym Eceriferum-ym 26:453 1546
527 cer-yn cer-yn 1H Eceriferum-yn 40:125 1547
528 cer-yo cer-yo Eceriferum-yo 26:455 1548
529 cer-yp cer-yp Eceriferum-yp 26:456 1549
530 cer-yq cer-yq Eceriferum-yq 26:457 1550
531 cer-yr cer-yr Eceriferum-yr 26:458 1551
532 cer-ys cer-ys Eceriferum-ys 26:459 1552
533 cer-yt cer-yt 1H/5H Eceriferum-yt 40:126 1553
534 cer-yu cer-yu 1H Eceriferum-yu 40:127 1554
535 cer-yx cer-yx 1H/3H
/5H Eceriferum-yx 40:128 1555
536 Cer-yy Gle1 1HS Eceriferum-yy 40:129 1556
537 cer-yz cer-yz Eceriferum-yz 26:464 1557
538 cer-xa cer-xa Eceriferum-xa 26:465 1558
539 cer-xb cer-xb Eceriferum-xb 26:466 1559
540 cer-xc cer-xc Eceriferum-xc 26:467 1560
541 cer-xd cer-xd Eceriferum-xd 26:468 1561
542 Dwf2 Dwf2 Dominant dwarf 2 24:170
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
543 int-f int-f Intermedium spike-f 26:469 1767
544 int-h int-h Intermedium spike-h 26:470 1768
545 int-i int-i Intermedium spike-i 26:471 1769
546 int-k int-k 7H Intermedium spike-k 37:279 1770
547 int-m int-m Intermedium spike-m 37:280 1772
548 Fol-b Ang 1HS Angustifolium-b 40:131 17
549 Lga1 Log Long glume awn 1 26:475 835
550 ari-b ari-b Breviaristatum-b 26:476 1649
551 ari-f ari-f Breviaristatum-f 26:477 1654
552 ari-j ari-j Breviaristatum-j 26:478 1658
553 ari-k ari-k Breviaristatum-k 26:479 1659
554 ari-m ari-m Breviaristatum-m 26:480 1661
555 ari-n ari-n Breviaristatum-n 26:481 1662
556 ari-o ari-o Breviaristatum-o 26:482
557 ari-p ari-p Breviaristatum-p 40:132 1664
558 ari-q ari-q Breviaristatum-q 26:484 1665
559 ari-r ari-r Breviaristatum-r 26:485 1666
560 ert-f ert-f 1H Erectoides-f 40:133 478
561 ert-h ert-h Erectoides-h 26:487 481
562 ert-k ert-k Erectoides-k 26:488 485
563 ert-l ert-l Erectoides-l 26:489 486
564 ert-p ert-p Erectoides-p 26:490 490
565 ert-s ert-s Erectoides-s 26:491 493
566 ert-t ert-t, brh3 2HS Erectoides-t 40:134 494
567 ert-v ert-v Erectoides-v 26:493 497
568 ert-x ert-x 1H/7H Erectoides-x 40:136 498
569 ert-y ert-y Erectoides-y 26:495 499
570 ert-z ert-z Erectoides-z 26:496 500
571 ert-za ert-za Erectoides-za 26:497 501
572 ert-zb ert-zb Erectoides-zb 26:498 502
573 ert-zc ert-zc Erectoides-zc 26:499 503
574 ert-ze ert-ze Erectoides-ze 26:500 505
575 Rph6 Pa6 Reaction to Puccinia hordei 6 26:501 1598
576 Rph8 Pa8 Reaction to Puccinia hordei 8 26:502 1600
577 Rsg2 Rsg2 Reaction to Schizaphis graminum 2
37:283 2513
578 mat-b mat-b Praematurum-b 26:584 1788
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
579 mat-c mat-c Praematurum-c 26:506 1789
580 mat-d mat-d Praematurum-d 26:507 1790
581 mat-e mat-e Praematurum-e 26:508 1791
582 mat-f mat-f 1H Praematurum-f 40:137 1792
583 mat-g mat-g Praematurum-g 26:510 1793
584 mat-h mat-h Praematurum-h 26:511 1794
585 mat-i mat-i Praematurum-i 26:512 1795
586 bra-d bra-d 1HL Bracteatum-d 40:139 1696
587 abo3 a2, alb-za Albino seedling 3 26:514 165
588 abo10 at2 Albino seedling 10 26:515 57
589 abo11 at3, albt Albino seedling 11 26:516 233
590 Rph13 Rph13 Reaction to Puccinia hordei 13 28: 31 1591
591 Rph14 Rph14 Reaction to Puccinia hordei 14 28: 32 1592
592 yhd2 yh2 Yellow head 2 28: 33 757
593 adp1 adp Awned palea 1 37:285 1618
594 ant3 rub Anthocyanin-deficient 3 29: 82 1641
595 ant4 ant4 Anthocyanin-deficient 4 29: 83 1642
596 ant5 rs2 Anthocyanin-deficient 5 29: 84 1643
597 ant6 ant6 Anthocyanin-deficient 6 29: 85 1644
598 ant13 ant13 6HL Proanthocyanin-free 13 29: 86 1624
599 ant17 ant17 3HS Proanthocyanin-free 17 37:286
600 ant18 ant18 7HL Proanthocyanin-free 18 29: 90 1630
601 ant19 ant19 Proanthocyanin-free 19 29: 92 1631
602 ant20 ant20 Anthocyanin-rich 20 29: 93 1633
603 ant21 ant21 6H Proanthocyanin-free 21 29: 94 1634
604 ant22 ant22 7HL Proanthocyanin-free 22 29: 95 1635
605 ant25 ant25 Proanthocyanin-free 25 29: 96 1638
606 ant26 ant26 Proanthocyanin-free 26 29: 97 1639
607 ant27 ant27 Proanthocyanin-free 27 29: 98 1640
608 ant28 ant28 3HL Proanthocyanin-free 28 29: 99
609 ant29 ant29 Proanthocyanin-free 29 29:100
610 ant30 ant30 Proanthocyanin-free 30 29:101
611 Nec6 Sp Necrotic leaf spot 6 32:112 2424
612 gig2 gig2 Gigas 2 32:113 1750
613 brc1 brc-5 2HS Branched 1 32:114
614 Zeo2 Zeo2 Zeocriton 2 32:115 637
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Table 2. (continued)
BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
615 wxs1 wxs1 7H/2H Waxy spike 1 40:141
616 cul3 cul3 Uniculme 3 32:117 2494
617 cul4 uc-5, uc-3 3HL Uniculme 4 37:289 2493
618 mnd3 mn3, m3 3H Many noded dwarf 3 32:119 1797
619 bra-a bra-a 7HS Bracteatum-a 32:120 1693
620 cal-b cal-b 5H Calcaroides-b 32:121 1697
621 Cal-c Cal-c 5HL Calcaroides-c 32:122 1567
622 cal-e cal-23 5HS Calcaroides-e 32:123
623 eli-a lig-a Eligulum-a 37:290
624 ops1 op-3 Opposite spikelets 1 32:125 2427
625 sci-a sci-3 Scirpoides 1 32:126
626 scl-a scl-6 1HL Scirpoides leaf-a 40:142
627 viv-a viv-5 Viviparoides-a 32:128 2498
628 sex7 sex.i 5HL Shrunken endosperm 7 32:129 2470
629 mtt6 mtt6 Mottled leaf 6 32:130 2411
630 Ari-s ari-265 Breviaristatum-s 32:131
631 brh3 brh.g, ert-t Brachytic 3 32:132 1672
632 mnd5 mnd5 Many noded dwarf 5 32:133
633 mnd6 den-6 5HL Many noded dwarf 6 37:291 1713
634 pmr2 nec-50 Premature ripe 2 32:135 2421
635 nec7 nec-45 1H/6H
/7H Necroticans 7 40:143 2420
636 tst2 lin2 Tip sterile 2 37:292 1781
637 nar1 nar1 6HS NADH nitrate reductase-deficient 1
35:194
638 nar2 nar2 5HL NADH nitrate reductase-deficient 2
35:195
639 nar3 nar3 7HS NADH nitrate reductase-deficient 3
35:196
640 nar4 nar4 2Hl NADH nitrate reductase-deficient 4
35:197
641 nar5 nar5 5HL NADH nitrate reductase-deficient 5
35:198
642 nar6 nar6 2HL NADH nitrate reductase-deficient 6
35:199
643 nar7 nar7 6HL NADH nitrate reductase-deficient 7
35:200
644 nar8 nar8 6HS NADH nitrate reductase-deficient 8
35:201
Table 2. (continued)
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BGS no.
Locus symbol* Chr. loc.†
Locus name or phenotype Descr. vol. p.
GSHO no.‡ Rec. Prev.
645 bsp1 bsp1 Bushy spike 1 35:202
646 ovl2 ovl2 Ovaryless 2 35:204
647 tst1 tst1 Tip sterile 1 35:205
648 mov4 mo8 Multiovary 4 35:206
649 asp1 asp1 Aborted spike 1 35:207
650 sun1 sun1 Sensitivity to Ustilago nuda 1 35:208
651 lam1 lam1 Late maturity 1 35:209
652 ylf1 ylf1 Yellow leaf 1 35:210
653 brh10 brh.l 2HS Brachytic 10 37:293 1677
654 brh11 brh.n 5HS Brachytic 11 37:294 1679
655 brh12 brh.o 5HS Brachytic 12 37:295 1680
656 brh13 brh.p 5HS Brachytic 13 37:296 1681
657 brh15 brh.u Brachytic 15 37:297 1685
658 brh17 brh.ab 5HS Brachytic 17 37:298 1669
659 brh18 brh.ac 5HS Brachytic 18 37:299 1670
660 nld2 Narrow leafed dwarf 2 37:300
661 dub1 5HL Double seed 1 37:301
676 fch16 clo.117 2HS Chlorina seedling 16 40:144
* Recommended locus symbols are based on utilization of a three-letter code for barley genes as approved at the business meeting of the Seventh International Barley Genetics Symposium at Saskatoon, Saskatchewan, Canada, on 05 August 5 1996. † Chromosome numbers and arm designations are based on a resolution passed at the business meeting of the Seventh International Barley Genetics Symposium at Saskatoon, Saskatchewan, Canada, on August 05 1996. The Burnham and Hagberg (1956) designations of barley chromosomes were 1 2 3 4 5 6 and 7 while new designations based on the Triticeae system are 7H 2H 3H 4H 1H 6H and 5H, respectively.
‡ The seed stock associated with each BGS number is held as a GSHO stock number in the Barley Genetics Stock Collection at the USDA-ARS National Small Grains Germplasm Research Facility, Aberdeen, Idaho, USA.
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Table 3. An alphabetic listing of recently published Barley Genetic Stock (BGS) descriptions for loci in barley (Hordeum vulgare), including information on chromosomal locations, recommended locus names, and original cultivars.
Locus symbol* BGS no.
Chr. loc.†
Locus name or phenotype Descr. vol. p.
Parental cultivar Rec. Prev.
abo1 at 207 1HL Albino seedling 1 26:210 Trebi
abo2 a2 53 2HS Albino seedling 2 26: 89 Nilsson-Ehle No 2
abo3 alb-za 587 Albino seedling 3 26:514 Unknown cultivar
abo4 a4 94 2H Albino seedling 4 26:133 Unknown cultivar
abo6 ac 106 3HS Albino seedling 6 26:140 Colsess
abo8 ac2 4 7HS Albino seedling 8 26: 47 Coast
abo9 an 112 3HS Albino seedling 9 26:146 Nigrinudum
abo10 at2 588 Albino seedling 10 26:515 Canadian Thorpe
abo11 at3 589 Albino seedling 11 26:516 Trebi
abo12 alb,,o 341 5HS Albino seedling 12 26:290 Titan
abo13 alb,,p 95 2HL Albino seedling 13 26:134 Titan
abo14 alb,,q 270 6HL Albino seedling 14 26:250 Shabet
abo15 alb,,t 271 6HS Albino seedling 15 26:251 Betzes
abr1 abr 472 2HL Accordion basal rachis internode 1
26:419 Bonus
acr1 acr 97 2HL Accordion rachis 1 40: 56 ACBV89B229
Acr2 Acr,lax 189 4HL Accordion rachis 2 40: 65 CIho 6164
Acr3 acr 241 1HL Accordion rachis 3 40: 85 Burma Girl
adp1 adp 593 3HL Awned palea 1 37:285 Unknown cultivar
alm1 al 108 3HS Albino lemma 1 37:222 Russia 82
als1 als 101 3HL Absent lower laterals 1 37:219 Montcalm
ant1 rs 33 7HS Anthocyanin-less 1 26: 82 Bonus
ant2 pr 80 2HL Anthocyanin-less 2 26:118 Foma
ant3 594 Anthocyanin-deficient 3 29: 82 Bonus
ant4 595 Anthocyanin-deficient 4 29: 83 Foma
ant5 596 Anthocyanin-deficient 5 29: 84 Bonus
ant6 597 Anthocyanin-deficient 6 29: 85 Foma
ant13 598 6HL Proanthocyanidin-free 13 29: 86 Foma
ant17 599 3HS Proanthocyanidin-free 17 37:286 Nordal
ant18 600 7HL Proanthocyanidin-free 18 29: 90 Nordal
Table 3. (continued)
Barley Genetics Newsletter (2010) 40:45-177
162
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
ant19 601 Proanthocyanidin-free 19 29: 92 Alf
ant20 602 Anthocyanidin-rich 20 29: 93 Foma
ant21 603 6H Proanthocyanidin-free 21 29: 94 Georgie
ant22 604 7HS Proanthocyanidin-free 22 29: 95 Hege 802
ant25 605 Proanthocyanidin-free 25 29: 96 Secobra 18193
ant26 606 Proanthocyanidin-free 26 29: 97 Grit
ant27 607 Proanthocyanidin-free 27 29: 98 Zebit
ant28 608 3HL Proanthocyanidin-free 28 29: 99 Grit
ant29 609 Proanthocyanidin-free 29 29:100 Ca 708912
ant30 610 Proanthocyanidin-free 30 29:101 Gunhild
ari-a 132 3HS Breviaristatum-a 26:168 Bonus
ari-b 550 Breviaristatum-b 26:476 Bonus
ari-e 328 5HL Breviaristatum-e 26:276 Bonus
ari-f 551 Breviaristatum-f 26:477 Bonus
ari-g 89 Breviaristatum-g 26:128 Bonus
ari-h 329 5HL Breviaristatum-h 26:277 Foma
ari-j 552 Breviaristatum-j 26:478 Bonus
ari-k 553 Breviaristatum-k 26:479 Bonus
ari-m 554 Breviaristatum-m 26:480 Bonus
ari-n 555 Breviaristatum-n 26:481 Bonus
ari-o 556 Breviaristatum-o 26:482 Bonus
ari-p 557 Breviaristatum-p 40:132 Foma
ari-q 558 Breviaristatum-q 26:484 Kristina
ari-r 559 Breviaristatum-r 26:485 Bonus
Ari-s ari-265 630 Breviaristatum-s 32:131 Kristina
Ari-t Ari-25 238 1H Breviaristatum-t 40: 82 Bonus
asp1 649 Aborted spike 1 35:207 Steptoe
blf1 bb 326 5HL Broad leaf 1 26:274 Bonus
blf2 bb2 337 5HL Broad leaf 2 26:285 Hannchen
Blp1 B 203 1HL Black lemma and pericarp 1 40: 69 Nigrinudum
blx1 bl 15 4HL Non-blue aleurone xenia 1 26: 60 Goldfoil
blx2 bl2 19 7HS Non-blue aleurone xenia 2 26: 65 Nepal
blx3 bl3 173 4HL Non-blue aleurone xenia 3 26:198 Blx
blx4 bl4 174 4HL Non-blue (pink) aleurone xenia 4
26:199 Ab 6
blx5 bl5 454 7HL Non-blue aleurone xenia 5 26:404 BGM 122
bra-a 619 7HS Bracteatum-a 32:120 Bonus
Table 3. (continued)
Barley Genetics Newsletter (2010) 40:45-177
163
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
bra-d 586 1HL Bracteatum-d 40:139 Foma
brc1 brc-5 613 2HS Branched 1 32:114
brh1 br 1 7HS Brachytic 1 37:188 Himalaya
brh2 br2 157 4HL Brachytic 2 37:235 Svanhals
brh3 brh.g, ert-t
631 Brachytic 3 32:132 Birgitta
brh4 brh.j 349 5HS Brachytic 4 37:262 Birgitta
brh5 brh.m 185 4HS Brachytic 5 37:242 Birgitta
brh6 brh.s 350 5HS Brachytic 6 37:263 Akashinriki
brh7 brh.w 41 5HS Brachytic 7 37:203 Volla
brh8 brh.ad 142 3HS Brachytic 8 37:230 Birgitta
brh9 brh.k 187 4HS Brachytic 9 37:244 Birgitta
brh10 brh.l 653 2HS Brachytic 10 37:293 Birgitta
brh11 brh.n 654 5HS Brachytic 11 37:294 Birgitta
brh12 brh.o 655 5HS Brachytic 12 37:295 Birgitta
brh13 brh.p 656 5HS Brachytic 13 37:296 Birgitta
brh14 brh.q 148 3HL Brachytic 14 37:231 Akashinriki
brh15 brh.u 657 Brachytic 15 37:297 Julia
brh16 brh.v 44 7HL Brachytic 16 37:204 Korál
brh17 brh.ab 658 5HS Brachytic 17 37:298 Morex
brh18 Brh.ac 659 5HS Brachytic 18 37:299 Triumph
bsp1 645 Bushy spike 1 35:203 Morex
btr1 bt 115 3HS Non-brittle rachis 1 26:149 A 222
btr2 bt2 116 3HS Non-brittle rachis 2 26:150 Sakigoke
cal-b 620 5H Calcaroides-b 32:121 Bonus
Cal-c 621 5HL Calcaroides-c 32:122 Bonus
cal-d 146 3H Calcaroides-d 40: 58 Foma
cal-e 622 5HS Calcaroides-e 32:123 Semira
cer-d 399 Eceriferum-d + ++ ++ 26:346 Bonus
cer-e 400 1HL Eceriferum-e -/+ ++ ++ 40:102 Bonus
cer-f 401 1H Eceriferum-f + + ++ 40:104 Bonus
cer-g 402 2HL Eceriferum-g + + ++ 26:349 Bonus
cer-h 403 Eceriferum-h - ++ ++ 26:351 Bonus
cer-i 404 5HL Eceriferum-i - ++ ++ 26:352 Bonus
cer-k 405 7HS Eceriferum-k + ++ ++ 26:354 Bonus
cer-l 406 Eceriferum-l + ++ ++ 26:355 Bonus
cer-m 407 Eceriferum-m +/++ + ++ 26:356 Bonus
Table 3. (continued)
Barley Genetics Newsletter (2010) 40:45-177
164
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
cer-n gs9 408 2HL Eceriferum-n - - ++ & - +/- ++
26:357 Bonus
cer-o 409 1HL Eceriferum-o -/+ ++ ++ 40:106 Bonus
cer-p 410 Eceriferum-p ++ ++ + 26:360 Bonus
cer-r 411 3HL Eceriferum-r +/- + ++ 26:361 Bonus
cer-t 412 5HL Eceriferum-t +/- ++ ++ 26:362 Bonus
cer-v 414 2HS Eceriferum-v +/- ++ ++ 26:366 Bonus
cer-w 415 5HL Eceriferum-w +/- ++ ++ 26:367 Bonus
cer-xa 538 Eceriferum-xa ++ ++ - 26:465 Foma
cer-xb 539 Eceriferum-xb - ++ ++ 26:466 Bonus
cer-xc 540 Eceriferum-xc + + ++ 26:467 Bonus
cer-xd 541 Eceriferum-xd + + ++ 26:468 Bonus
cer-y 417 Eceriferum-y + +/++ ++ 26:368 Bonus
cer-ya 444 3HS Eceriferum-ya ++ ++ - 26:396 Bonus
cer-yb 445 2HL Eceriferum-yb ++ ++ - 26:397 Bonus
cer-yc 446 Eceriferum-yc - ++ ++ 26:398 Bonus
cer-yd 447 3HS Eceriferum-yd - ++ ++ 26:399 Bonus
cer-ye 448 5HL Eceriferum-ye ++ ++ - 26:400 Foma
cer-yf 449 Eceriferum-yf ++ ++ + 37:271 Bonus
cer-yg 450 7HS Eceriferum-yg - - - 26:402 Carlsberg II
cer-yh 451 3HS Eceriferum-yh - ++ ++ 26:403 Bonus
cer-yi 522 Eceriferum-yi ++ ++ - 26:449 Foma
cer-yj 523 1HS Eceriferum-yj ++ ++ - 40:124 Bonus
cer-yk 524 Eceriferum-yk + + ++ 26:451 Bonus
cer-yl 525 Eceriferum-yl - - ++ 26:452 Bonus
cer-ym 526 Eceriferum-ym - - - 26:453 Bonus
cer-yn 527 1H Eceriferum-yn + + ++ 40:125 Kristina
cer-yo 528 Eceriferum-yo ++ ++ + 26:455 Bonus
cer-yp 529 Eceriferum-yp ++ ++ + 26:456 Bonus
cer-yq 530 Eceriferum-yq ++ ++ - 26:457 Kristina
cer-yr 531 Eceriferum-yr -/+ + ++ 26:458 Foma
cer-ys 532 Eceriferum-ys ++ ++ - 26:459 Bonus
cer-yt 533 1H/5H Eceriferum-yt - ++ ++ 40:126 Bonus
cer-yu 534 1H Eceriferum-yu ++ ++ - 40:127 Bonus
cer-yx 535 1H/3H
/5H Eceriferum-yx + + ++ 40:128 Foma
Cer-yy Gle1 536 1HS Eceriferum-yy - ++ ++ 40:129 Bonus
cer-yz 537 Eceriferum-yz + + ++ 26:464 Bonus
Barley Genetics Newsletter (2010) 40:45-177
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Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
cer-z 418 7HS Eceriferum-z - - ++ 26:369 Bonus
cer-za 419 5HL Eceriferum-za ++ ++ - 26:370 Foma
cer-zb 420 Eceriferum-zb - ++ ++ 26:371 Bonus
cer-zc 421 Eceriferum-zc +/- ++ ++ 26:372 Bonus
cer-zd 422 3HL Eceriferum-zd ++ ++ - 40:110 Bonus
cer-ze gl5 423 7HS Eceriferum-ze ++ ++ - 26:374 Bonus
cer-zf 424 Eceriferum-zf ++ ++ + 26:376 Bonus
cer-zg 425 4HL Eceriferum-zg ++ ++ + 26:377 Foma
cer-zi 427 1HL Eceriferum-zi + + ++ 26:378 Bonus
cer-zj 428 5HL Eceriferum-zj ++ ++ - 26:379 Bonus
cer-zk 429 2H Eceriferum-zk + + +/- 26:381 Bonus
cer-zl 430 Eceriferum-zl - - ++ 26:382 Bonus
cer-zn 431 1H Eceriferum-zn +/- ++ ++ 40:112 Foma
cer-zo 432 Eceriferum-zo - ++ ++ 26:384 Foma
cer-zp 433 5HL Eceriferum-zp ++ ++ - 26:385 Bonus
cer-zq 434 Eceriferum-zq ++ ++ - 26:386 Foma
cer-zr 435 Eceriferum-zr +/- ++ ++ 26:387 Foma
cer-zs 436 Eceriferum-zs + ++ ++ 26:388 Foma
cer-zt 437 2HS Eceriferum-zt + ++ ++ 37:270 Foma
cer-zu 438 1H Eceriferum-zu - + ++ 40:114 Foma
cer-zv 439 Eceriferum-zv - - - 26:391 Foma
cer-zw 440 Eceriferum-zw + + ++ 26:392 Foma
cer-zx 441 Eceriferum-zx + + ++ 26:393 Bonus
cer-zy 442 1HS Eceriferum-zy ++ ++ + 40:116 Bonus
cer-zz 443 Eceriferum-zz ++ ++ - 26:395 Bonus
clh1 clh 225 7H/5H Curled leaf dwarf 1 40: 76 Hannchen
com1 bir1 473 5HL Compositum 1 40:118 Foma
com2 bir2 71 2HS Compositum 2 40: 53 CIMMYT freak
crl1 cl 325 Curly lateral 1 26:273 Montcalm
crm1 cm 305 5HL Cream seedling 1 26:256 Black Hulless
cud1 cud 324 5HL Curly dwarf 1 26:272 Akashinriki
cud2 229 1HL Curly dwarf 2 26:227 Akashinriki
cul2 uc2 253 6HL Uniculm 2 37:253 Kindred
cul3 616 Uniculme 3 32:117 Donaria
cul4 uc-5 617 3HL Uniculme 4 37:289 Bonus
cur1 cu1 262 6HL Curly 1 26:242 48-cr cr-17
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Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
cur2 cu2 114 3HL Curly 2 26:148 Choshiro
cur3 cu3 263 6HL Curly 3 26:243 Akashinriki
cur4 cu4 460 2HL Curly 4 26:406 Asahi 5
cur5 cu5 231 1HS Curly 5 26:229 Glenn
ddt1 ddt 317 5HS Reaction to DDT 1 26:266 Spartan
des1 lc 12 7H Desynapsis 1 26: 57 Mars
des2 ds 119 3H Desynapsis 2 26:154 Husky
des3 386 Desynapsis 3 26:334 Betzes
des4 13 7H Desynapsis 4 26: 58 Betzes
des5 14 7H Desynapsis 5 26: 59 Betzes
des6 215 1H Desynapsis 6 26:216 Betzes
des7 64 2H Desynapsis 7 26:100 Betzes
des8 387 Desynapsis 8 26:335 Betzes
des9 388 Desynapsis 9 26:336 Betzes
des10 389 Desynapsis 10 26:337 Betzes
des11 390 Desynapsis 11 26:338 Betzes
des12 391 Desynapsis 12 26:339 Betzes
des13 392 Desynapsis 13 26:340 Betzes
des14 393 Desynapsis 14 26:341 Betzes
des15 394 Desynapsis 15 26:342 Ingrid
dex1 sex2 311 5HS Defective endosperm xenia 1
26:260 BTT 63-j-18-17
dsk1 dsk 322 5HL Dusky 1 26:270 Chikurin-Ibaraki 1
dsp1 l 9 7HS Dense spike 1 26: 53 Honen 6
dsp9 l9, ert-e 258 6HL Dense spike 9 26:239 Akashinriki
dsp10 lc 111 3HS Dense spike 10 26:145 Club Mariout
dub1 661 6HL Double seed 1 37:301 Bonus
Dwf2 542 Dominant dwarf 2 24:170 Klages/Mata
Eam1 Ppd-H1, Ea
65 2HS Early maturity 1 26:101 Estate
Eam5 Ea5 348 5HL Early maturity 5 37:260 Higuerilla*2/ Gobernadora
eam6 Ea6, Ea 98 2HS Early maturity 6 37:216 Morex
eam7 ea7 252 6HS Early maturity 7 26:233 California Mariout
eam8 eak,ert-o 214 1HL Early maturity 8 37:247 Kinai 5
eam9 ea,,c 181 4HL Early maturity 9 26:204 Tayeh 8
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Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
eam10 easp 130 3HL Early maturity 10 37:226 Super Precoz
eli-a lig-a 623 Eligulum-a 37:290 Foma
eog 1 e 57 2HL Elongated outer glume 1 26: 92 Triple Bearded Club Mariout
ert-a ert-6 28 7HS Erectoides-a 26: 74 Gull
ert-b ert-2 224 1HL Erectoides-b 40: 74 Gull
ert-c ert-1 134 3HL Erectoides-c 26:170 Gull
ert-d ert-7 29 7HS Erectoides-d 26: 76 Gull
ert-e dsp9 266 6HL Erectoides-e 37:257 Bonus
ert-f ert-18 560 1H Erectoides-f 40:133 Bonus
ert-g ert-24 330 5HL Erectoides-g 26:278 Bonus
ert-h ert-25 561 Erectoides-h 26:487 Bonus
ert-ii ert-79 135 3HL Erectoides-ii 26:172 Bonus
ert-j ert.31 90 2H Erectoides-j 26:129 Bonus
ert-k ert-32 562 Erectoides-k 26:488 Bonus
ert-l ert-12 563 Erectoides-l 26:489 Maja
ert-m ert-34 30 7HS Erectoides-m 26: 78 Bonus
ert-n ert-51 331 5HL Erectoides-n 26:279 Bonus
ert-p ert-44 564 Erectoides-p 26:490 Bonus
ert-q ert-101 91 2H Erectoides-q 26:130 Bonus
Ert-r Ert-52 332 Erectoides-r 26:280 Bonus
ert-s ert-50 565 Erectoides-s 26:491 Bonus
ert-t brh3 566 2HS Erectoides-t 40:134 Bonus
ert-u ert-56 92 2H Erectoides-u 26:131 Bonus
ert-v ert-57 567 Erectoides-v 26:493 Bonus
ert-x ert-58 568 1H/7H Erectoides-x 40:136 Bonus
ert-y ert-69 569 Erectoides-y 26:495 Bonus
ert-z ert-71 570 Erectoides-z 26:496 Bonus
ert-za ert-102 571 Erectoides-za 26:497 Bonus
ert-zb ert-132 572 Erectoides-zb 26:498 Bonus
ert-zc ert-149 573 Erectoides-zc 26:499 Bonus
ert-zd ert-159 93 2H Erectoides-zd 26:132 Bonus
ert-ze ert-105 574 Erectoides-ze 26:500 Bonus
fch1 f, lg 55 2HS Chlorina seedling 1 40: 49 Minn 84-7
fch2 f2 117 3HL Chlorina seedling 2 26:151 28-3398
fch3 f3 220 1HS Chlorina seedling 3 40: 71 Minn 89-4
fch4 f4 17 7HL Chlorina seedling 4 26: 63 Montcalm
Barley Genetics Newsletter (2010) 40:45-177
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Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
fch5 f5 18 7HS Chlorina seedling 5 26: 64 Gateway
fch6 f6 313 5HL Chlorina seedling 6 26:262 Himalaya
fch7 f7 201 1HL Chlorina seedling 7 26:206 Smyrna
fch8 f8 5 7HS Chlorina seedling 8 26: 48 Comfort
fch9 f9 151 4HS Chlorina seedling 9 26:178 Ko A
fch11 f11 260 6HL Chlorina seedling 11 26:240 Himalaya
fch12 fc 2 7HS Chlorina seedling 12 37:190 Colsess
fch13 f13 86 Chlorina seedling 13 26:124 Niggrinudum
fch14 f14 87 2HL Chlorina seedling 14 37:211 Shyri
fch15 or 52 2HS Chlorina seedling 15 40: 48 Trebi IV
fch16 clo.117 676 2HS Chlorina seedling 16 40:144 Bonus
fch17 vy 191 1H/3H Chlorina seedling 17 40: 68 Himalaya/Ingres
flo-a 182 Extra floret-a 26:205 Foma
flo-b 327 5HL Extra floret-b 26:275 Foma
flo-c 74 2HS Extra floret-c 26:111 Foma
fol-a 73 2HL Angustifolium-a 26:110 Proctor
Fol-b Ang 548 1HS Angustifolium-b 40:131 Unknown
fst1 fs 301 5HL Fragile stem 1 26:252 Kamairazu
fst2 fs2 208 1HL Fragile stem 2 26:211 Oshichi
fst3 fs3 24 7HS Fragile stem 3 26: 70 Kobinkatagi 4
gig1 gig 463 2H? Gigas 1 26:410 Tochigi Golden Melon
gig2 612 Gigas 2 32:113 ND12463
glf1 gl,cer-zh 155 4HL Glossy leaf 1 ++ ++ - 40: 61 Himalaya
glf3 gl3 165 4HL Glossy leaf 3 ++ ++ - 26:190 Goseshikoku
glo-a 168 4HS Globosum-a 26:194 Proctor
glo-b 336 5HL Globosum-b 26:284 Villa
glo-c 72 2H Globosum-c 26:109 Villa
glo-e 230 1HL Globosum-e 26:228 Foma
glo-f 342 5HL Globosum-f 26:291 Damazy
gpa1 gp 59 2HL Grandpa 1 26: 95 Lyallpur
gra-a gran-a 131 3HL Granum-a 26:167 Donaria
gsh1 gs1,cer-q
351 2HS Glossy sheath 1 - - ++ 40: 92 CIho 5818
gsh2 gs2 352 3HL Glossy sheath 2 - - ++ 26:294 Atlas
gsh3 gs3 353 7HS Glossy sheath 3 - - ++ 26:296 Mars
gsh4 gs4 354 6HL Glossy sheath 4 - - ++ 26:298 Gateway
Barley Genetics Newsletter (2010) 40:45-177
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Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
gsh5 gs5 355 2HL Glossy sheath 5 + - ++ 26:300 Jotun
gsh6 cer-c, gs6
356 2HS Glossy sheath 6 - - ++ 40: 95 Betzes
gsh7 gs7 81 1H/2H
/5H Glossy sheath 7 - - ++ 40: 55 Akashinriki
gsh8 cer-u, gs8
413 2HS Glossy sheath 8 + + ++ 40:107 Bonus
Gth1 G 69 2HL Toothed lemma 1 26:106 Machine (Wexelsen)
hcm1 h 77 2HL Short culm 1 26:115 Morex
Hln1 Hn 164 4HL Hairs on lemma nerves 1 26:189 Kogane-mugi
Hsh1 Hs 179 4HL Hairy leaf sheath 1 37:240 Kimugi
int-b 320 5HL Intermedium spike-b 26:268 Bonus
int-c i 178 4HS Intermedium spike-c 37:237 Gamma 4
int-f 543 Intermedium spike-f 26:469 Foma
int-h 544 Intermedium spike-h 26:470 Kristina
int-i 545 Intermedium spike-i 26:471 Kristina
int-k 546 7H Intermedium spike-k 37:279 Kristina
int-m 547 Intermedium spike-m 37:280 Bonus
Kap1 K 152 4HS Hooded lemma 1 26:179 Colsess
lam1 651 Late maturity 1 35:209 Steptoe
lax-a 474 5HL Laxatum-a 40:120 Bonus
lax-b 268 6HL Laxatum-b 26:248 Bonus
lax-c 475 6HL Laxatum-c 26:423 Bonus
lbi1 lb 308 5HL Long basal rachis internode 1
40: 88 Wisconsin 38
lbi2 lb2 156 4HL Long basal rachis internode 2
26:183 Montcalm
lbi3 lb3 27 7HL Long basal rachis internode 3
26: 73 Montcalm
lel1 lel 235 1HL Leafy lemma 1 32:103 G7118
Lfb1 Lfb 343 5HL Leafy bract 1 28: 30 Montcalm
Lga1 Log 549 Long glume awn 1 26:475 Guy Mayle
lgn3 lg3 170 4HL Light green 3 26:195 No 154
lgn4 lg4 171 4HL Light green 4 26:196 Himalaya / Ingrescens
lig1 li 60 2HL Liguleless 1 37:205 Muyoji
lin1 s, rin 99 2HL Lesser internode number 1 32: 88 Natural occurence
Lks1 Lk 75 2HL Awnless 1 26:112 Hordeum inerme
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lks2 lk2 10 7HL Short awn 2 37:197 Honen 6
Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
lks5 lk5 172 4HL Short awn 5 26:197 CIho 5641
lnt1 lnt 118 3HL Low number of tillers 1 26:153 Mitake
lys1 lys 338 5HL High lysine 1 26:286 Hiproly
lys3 sex3 339 5HL High lysine 3 26:287 Bomi
Lys4 sex5 232 1HS High lysine 4 26:230 Bomi
lys6 269 6H High lysine 6 26:249 Bomi
lzd1 lzd 125 3HS Lazy dwarf 1 26:161 Akashinriki
mat-b 578 Praematurum-b 26:504 Bonus
mat-c 579 Praematurum-c 26:506 Bonus
mat-d 580 Praematurum-d 26:507 Bonus
mat-e 581 Praematurum-e 26:508 Bonus
mat-f 582 1H Praematurum-f 40:137 Bonus
mat-g 583 Praematurum-g 26:510 Bonus
mat-h 584 Praematurum-h 26:511 Bonus
mat-i 585 Praematurum-i 26:512 Bonus
min1 min 161 4HL Semi-minute dwarf 1 26:187 Taisho-mugi
min2 en-min 160 Enhancer of minute 1 26:186 Kaiyo Bozu
mnd1 m 519 Many-noded dwarf 1 26:446 Mesa
mnd3 m3 618 3H Many noded dwarf 3 32:119 Montcalm
mnd4 m4 347 5HL Many noded dwarf 4 32:108 Akashinriki
mnd5 632 Many noded dwarf 5 32:133 C2-95-199
mnd6 den-6 633 5HL Many noded dwarf 6 37:291 Bonus
mov1 mo6b 43 7HL Multiovary 1 35:185 Steptoe
mov2 mo7a 147 3HS Multiovary 2 35:190 Steptoe
mov3 mo-a 234 1H Multiovary 3 32:102 Akashinriki
mov4 648 Multiovary 4 35:206 Steptoe
msg1 357 1HL Male sterile genetic 1 40: 98 CIho 5368
msg2 358 2HL Male sterile genetic 2 26:306 Manchuria
msg3 359 2HS Male sterile genetic 3 26:307 Gateway
msg4 360 1H Male sterile genetic 4 40:100 Freja
msg5 361 3HS Male sterile genetic 5 26:309 Carlsberg II
msg6 362 6HS Male sterile genetic 6 26:310 Hanna
msg7 363 5HL Male sterile genetic 7 26:311 Dekap
msg8 364 5HL Male sterile genetic 8 26:312 Betzes
msg9 365 2HS Male sterile genetic 9 26:313 Vantage
Barley Genetics Newsletter (2010) 40:45-177
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msg10 366 7HS Male sterile genetic 10 26:314 Compana
Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
msg11 367 Male sterile genetic 11 26:315 Gateway
msg13 368 Male sterile genetic 13 26:316 Haisa II
msg14 369 7HS Male sterile genetic 14 26:317 Unitan
msg15 370 Male sterile genetic 15 26:318 Atlas/2*Kindred
msg16 371 5HS Male sterile genetic 16 26:319 Betzes
msg17 372 Male sterile genetic 17 26:320 Compana
msg18 373 5HL Male sterile genetic 18 26:321 Compana
msg19 374 5HS Male sterile genetic 19 26:322 CIho 14393
msg20 375 1H Male sterile genetic 20 26:323 Hannchen
msg21 376 1HL Male sterile genetic 21 40:101 Midwest Bulk
msg22 383 7H Male sterile genetic 22 26:331 Glacier/Compana
msg23 384 7HL Male sterile genetic 23 26:332 Betzes
msg24 385 4HL Male sterile genetic 24 26:333 Betzes
msg25 166 4HL Male sterile genetic 25 26:192 Betzes
msg26 395 7HS Male sterile genetic 26 26:343 Unitan
msg27 464 2HL Male sterile genetic 27 26:411 Firlbecks III
msg28 465 6H Male sterile genetic 28 26:412 York
msg29 466 5HL Male sterile genetic 29 26:413 Ackermans MGZ
msg30 467 7HL Male sterile genetic 30 26:414 Compana
msg31 468 1HL Male sterile genetic 31 40:117 51Ab4834
msg32 469 7H Male sterile genetic 32 26:416 Betzes
msg33 470 2HS Male sterile genetic 33 26:417 Betzes
msg34 471 6H Male sterile genetic 34 26:418 Paragon
msg35 498 2HL Male sterile genetic 35 26:424 Karl
msg36 499 6HS Male sterile genetic 36 26:425 Betzes
msg37 500 Male sterile genetic 37 26:426 Clermont
msg38 501 Male sterile genetic 38 26:427 Ingrid
msg39 502 3HL Male sterile genetic 39 40:122 P11
msg40 503 6H Male sterile genetic 40 26:429 Conquest
msg41 504 Male sterile genetic 41 26:430 Betzes
msg42 505 3H Male sterile genetic 42 26:431 Betzes
msg43 506 Male sterile genetic 43 26:432 Betzes
msg44 507 Male sterile genetic 44 26:433 HA6-33-02
msg45 508 Male sterile genetic 45 26:434 RPB439-71
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msg46 509 Male sterile genetic 46 26:435 Hector
Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
msg47 510 Male sterile genetic 47 26:436 Sel 12384CO
msg48 520 1HS Male sterile genetic 48 40:123 Simba
msg49 335 5HL Male sterile genetic 49 26:283 ND7369
msg50 34 7HL Male sterile genetic 50 26: 83 Berac
mss1 mss 84 2H Midseason stripe 1 26:122 Montcalm
mss2 39 7HS Midseason stripe 2 32: 79 ND11258
mtt1 mt 521 1HS Mottled leaf 1 26:448 Montcalm
mtt2 mt2 302 5HL Mottled leaf 2 26:253 Montcalm
mtt4 mt,,e 78 2HL Mottled leaf 4 26:116 Victorie
mtt5 mt,,f 264 6HL Mottled leaf 5 26:244 Akashinriki
mtt6 629 Mottled leaf 6 32:130 ND6809
mul2 251 6HL Multiflorus 2 26:232 Montcalm
nar1 637 6HS NADH ntrate reductase-deficient 1
35:194 Steptoe
nar2 638 5HL NADH ntrate reductase-deficient 2
35:196 Steptoe
nar3 639 7HS NADH ntrate reductase-deficient 3
35:197 Winer
nar4 640 2HL NADH ntrate reductase-deficient 4
35:198 Steptoe
nar5 641 5HL NADH ntrate reductase-deficient 5
35:199 Steptoe
nar6 642 2HL NADH ntrate reductase-deficient 6
35:200 Steptoe
nar7 643 6HL NADH ntrate reductase-deficient 7
35:201 Steptoe
nar8 644 6HS NADH ntrate reductase-deficient 8
35:202 Steptoe
nec1 222 1HL Necrotic leaf spot 1 37:251 Carlsberg II
nec2 261 6HS Necrotic leaf spot 2 26:241 Carlsberg II
nec3 265 6HS Necrotic leaf spot 3 26:245 Proctor
nec4 138 3H Necrotic leaf spot 4 26:175 Proctor
nec5 139 3H Necrotic leaf spot 5 26:176 Diamant
Nec6 Sp 611 Necrotic leaf spot 6 32:112 Awnless Atlas
nec7 nec-45 635 1H/6H
/7H Necroticans 7 40:143 Kristina
nld1 nld 323 5HL Narrow leafed dwarf 1 26:271 Nagaoka
nld2 660 Narrow leafed dwarf 2 37:300 Steptoe
nud1 n, nud 7 7HL Naked caryopsis 1 37:195 Himalaya
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Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
ops1 op-3 624 Opposite spikelets 1 32:125 Bonus
ovl1 176 4H Ovaryless 1 35:191 Kanto Bansei Gold
ovl2 646 Ovaryless 2 35:204 Harrington
pmr1 pmr 40 7HS Premature ripe 1 32: 80 Glenn
pmr2 nec-50 634 Premature ripe 2 32:135 Bonus
Pre2 Re2 76 2HL Red lemma and pericarp 2 26:113 Buckley 3277
Pub1 Pub 127 3HL Pubescent leaf blade 1 26:163 Multiple Dominant
Pvc1 Pc 68 2HL Purple veined lemma 1 26:105 Buckley 2223-6
Pyr1 42 7HS Pyramidatum 1 32: 82 Pokko/Hja80001
raw1 r 312 5HL Smooth awn 1 26:261 Lion
raw2 r2 340 5HL Smooth awn 2 26:289 Lion
raw5 r,,e 257 6HL Smooth awn 5 26:238 Akashinriki
raw6 r6 334 5HL Smooth awn 6 26:282 Glenn
rob1 o 254 6HS Orange lemma 1 37:255 CIho 5649
Rpc1 149 3H Reaction to Puccinia coronata var. hordei 1
37:232 Hor 2596
Rpg1 T 511 7HS Reaction to Puccinia graminis 1
26:437 Chevron
Rpg2 T2 512 Reaction to Puccinia graminis 2
26:439 Hietpas 5
rpg4 319 5HL Reaction to Puccinia graminis 4
26:267 Q21861
Rph1 Pa 70 2H Reaction to Puccinia hordei 1
26:107 Oderbrucker
Rph2 Pa2 88 5HS Reaction to Puccinia hordei 2
37:212 Peruvian
Rph3 Pa3 121 7HL Reaction to Puccinia hordei 3
26:156 Estate
Rph4 Pa4 218 1HS Reaction to Puccinia hordei 4
26:217 Gull
Rph5 Pa5 122 3HS Reaction to Puccinia hordei 5
37:224 Magnif 102
Rph6 Pa6 575 3HS Reaction to Puccinia hordei 6
26:501 Bolivia
Rph7 Pa7 136 3HS Reaction to Puccinia hordei 7
37:228 Cebada Capa
Rph8 Pa8 576 Reaction to Puccinia hordei 8
26:502 Egypt 4
Rph9 Pa9 32 5HL Reaction to Puccinia hordei 9
37:201 HOR 2596
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Rph10 137 3HL Reaction to Puccinia hordei 10
26:174 Clipper C8
Rph11 267 6HL Reaction to Puccinia hordei 11
26:247 Clipper C67
Rph12 333 5HL Reaction to Puccinia hordei 12
26:281 Triumph
Rph13 590 Reaction to Puccinia hordei 13
28: 31 PI 531849
Rph14 591 Reaction to Puccinia hordei 14
28: 32 PI 584760
Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
Rph15 Rph16 96 2HL Reaction to Puccinia hordei 15
37:214 PI 355447
Rsg1 Grb 22 7H Reaction to Schizaphis graminum 1
37:199 Omugi
Rsg2 577 Reaction to Schizaphis graminum 2
37:283 PI 426756
rsm1 sm 35 7HS Reaction to BSMV 1 26: 84 Modjo 1
Rsp1 Sep 515 Reaction to Septoria passerinii 1
26:441 CIho 14300
Rsp2 Sep2 516 Reaction to Septoria passerinii 2
37:275 PI 70837
Rsp3 Sep3 517 Reaction to Septoria passerinii 3
37:276 CIho 10644
rtt1 rt 51 2HS Rattail spike 1 26: 87 Goldfoil
Run1 Un 21 7HS Reaction to Ustilago nuda 1 26: 67 Trebi
rvl1 rvl 226 1HL Revoluted leaf 1 40: 77 Hakata 2
Ryd2 Yd2 123 3HL Reaction to BYDV 2 26:158 CIho 2376
Rym1 Ym 167 4HL Reaction to BaYMV 1 32: 96 Mokusekko 3
Rym2 Ym2 20 7HL Reaction to BaYMV 2 26: 66 Mihori Hadaka 3
rym3 ym3 345 5HS Reaction to BaYMV 3 32:105 Chikurin Ibaraki
rym5 Ym 141 3HL Reaction to BaYMV 5 32: 90 Mokusekko 3
sbk1 sk, cal-a 62 2HS Subjacent hood 1 40: 51 Tayeh 13
sca1 sca 128 3HS Short crooked awn 1 26:164 Akashinriki
sci-a sci-3 625 Scirpoides-a 32:126 Bonus
sci-b sci-4 239 1H/6H Scirpoides-b 40: 83 Bonus
scl-a scl-6 626 1HL Scirpoides leaf-a 40:142 Foma
scl-b scl.5 150 3H/6H Scirpoides leaf-b 40: 60 Bonus
sdw1 sdw 518 3HL Semidwarf 1 37:277 M21
sdw2 sdw-b 133 3HL Semidwarf 2 26:169 Mg2170
sdw6 sdw.f 240 1H/7H Semidwarf 6 40: 84 Vada
seg1 se1 377 7HL Shrunken endosperm 37:264 Betzes
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genetic 1
seg2 se2 378 7HS Shrunken endosperm genetic 2
26:326 Betzes
seg3 se3 379 3H Shrunken endosperm genetic 3
37:265 Compana
seg4 se4 380 7HL Shrunken endosperm genetic 4
37:267 Compana
seg5 se5 381 7HS Shrunken endosperm genetic 5
26:329 Sermo/7*Glacier
seg6 se6 396 3HL Shrunken endosperm genetic 6
37:268 Ingrid
seg7 se7 397 Shrunken endosperm genetic 7
37:269 Ingrid
seg8 455 7H Shrunken endosperm genetic 8
37:272 60Ab1810-53
sex1 lys5 382 6HL Shrunken endosperm xenia 1
26:330 Compana
Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
sex6 31 7HS Shrunken endosperm xenia 6
26: 80 K6827
sex7 sex.i 628 5HL Shrunken endosperm xenia 7
32:129 I90-374
sex8 sex.j 143 6HS Shrunken endosperm xenia 8
32: 93 I89-633
sgh1 sh1 163 4HL Spring growth habit 1 26:188 Iwate Mensury C
Sgh2 Sh2 309 5HL Spring growth habit 2 26:259 Indian Barley
Sgh3 Sh3 213 1HL Spring growth habit 3 26:212 Tammi/Hayakiso 2
sid1 nls 180 4HL Single internode dwarf 1 26:203 Akashinriki
Sil1 Sil 228 1H Subcrown internode length 1
40: 79 NE 62203
sld1 dw-1 126 3HL Slender dwarf 1 26:162 Akashinriki
sld2 83 2HS Slender dwarf 2 26:121 Akashinriki
sld3 ant-567 186 4HS Slender dwarf 3 40: 63 Manker
sld4 100 7HS Slender dwarf 4 37:218 Glacier
sld5 144 3HS Slender dwarf 5 32: 94 Indian Dwarf
sld6 sld.gs 242 1H Slender dwarf 6 40: 87 Glenn
sls1 sls 227 1HL Small lateral spikelet 1 40: 78 Morex
smn1 smn 38 7HS Seminudoides 1 32:225 Haisa
snb1 sb 26 7HS Subnodal bract 1 26: 72 L50-200
srh1 s 321 5HL Short rachilla hair 1 26:269 Lion
sun1 650 Sensitivity to Ustilago nuda 35:208 Steptoe
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1
tfm1 190 1HL Thick filament 1 40: 67 Volla
trd1 trd 202 1HL Third outer glume 1 26:207 Valki
trp1 tr 61 2HL Triple awned lemma 1 26: 97 CIho 6630
tst1 647 Tip sterile 1 35:205 Steptoe
tst2 lin2 636 Tip sterile 2 37:292 Donaria
ubs4 u4 11 7HL Unbranched style 4 26: 56 Ao-Hadaka
uzu1 uz 102 3HL Uzu 1 or semi brachytic 1 37:220 Baitori
var1 va 306 5HL Variegated 1 37:259 Montcalm
var2 va2 344 5HL Variegated 2 32:104 Montcalm
var3 va3 303 5HL Variegated 3 26:254 Montcalm
viv-a viv-5 627 Viviparoides-a 32:128 Foma
vrs1 v 6 2HL Six-rowed spike 1 37:192 Trebi
vrs1 lr 58 2HL Six-rowed spike 1 26: 94 Nudihaxtoni
vrs1 Vd 66 2HL Two-rowed spike 1 26:103 Svanhals
vrs1 Vt 67 2HL Deficiens 1 26:104 White Deficiens
vrs2 v2 314 5HL Six-rowed spike 2 26:263 Svanhals
Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
vrs3 v3 315 1HL Six-rowed spike 3 40: 90 Hadata 2
vrs4 v4 124 3HL Six-rowed spike 4 26:159 MFB 104
wax1 wx 16 7HS Waxy endosperm 1 26: 61 Oderbrucker
wnd1 wnd 23 7HS Winding dwarf 1 26: 69 Kogen-mugi
wst1 wst 107 3HL White streak 1 26:141 CIho 11767
wst2 304 5HL White streak 2 26:255 Manabe
wst4 56 2HL White streak 4 26: 91 Kanyo 7
wst5 221 1HL White streak 5 26:219 Carlsberg II
wst6 wst,,j 129 3HL White streak 6 26:165 Akashinriki
wst7 rb 79 2HL White streak 7 37:207 GS397
wxs1 wxs 615 7H/2H
L Waxy spike 1 40:141 Steptoe
Xnt1 Xa 25 7HL Xantha seedling 1 26: 71 Akanshinriki
xnt2 xb 513 Xantha seedling 2 26:440 Black Hulless
xnt3 xc 105 3HS Xantha seedling 3 26:139 Colsess
xnt4 xc2 36 7HL Xantha seedling 4 26: 85 Coast
xnt5 xn 255 6HL Xantha seedling 5 26:237 Nepal
xnt6 xs 113 3HS Xantha seedling 6 26:147 Smyrna
xnt7 xan,,g 233 1HL Xantha seedling 7 26:231 Erbet
xnt8 xan,,h 140 3HS Xantha seedling 8 26:177 Carlsberg II
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xnt9 xan,,i 37 7HL Xantha seedling 9 26: 86 Erbet
yhd1 yh 158 4HL Yellow head 1 26:185 Kimugi
yhd2 yh2 592 Yellow head 2 28: 34 Compana
ylf1 652 Yellow leaf 1 35:210 Villa
Ynd1 Yn 183 4HS Yellow node 1 32: 98 Morex
yst1 yst 104 3HS Yellow streak 1 26:138 Gateway
yst2 109 3HS Yellow streak 2 26:144 Kuromugi 148/ Mensury C
yst3 yst,,c 462 3HS Yellow streak 3 26:409 Lion
yst4 85 2HL Yellow streak 4 37:210 Glenn
yst5 346 5HL Yellow streak 5 32:107 Bowman / ant10.30
yvs1 yx 63 2HS Virescent seedling 1 26: 99 Minn 71-8
yvs2 yc 3 7HS Virescent seedling 2 26: 46 Coast
zeb1 zb 120 3HL Zebra stripe 1 26:155 Mars
zeb2 zb2 461 4HL Zebra stripe 2 26:407 Unknown
zeb3 zb3,zb 223 1HL Zebra stripe 3 40: 72 Utah 41
Table 3. (continued)
Locus symbol* BGSno.
Chr. loc.†
Locus name or phenotype Descr.vol. p.
Parental cultivar Rec. Prev.
Zeo1 Knd 82 2HL Zeocriton 1 37:209 Donaria
Zeo2 614 Zeocriton 2 32:115 36Ab51
Zeo3 Mo1 184 4HL Zeocriton 3 32: 99 Morex
* Recommended locus symbols are based on utilization of a three-letter code for barley genes as approved at the business meeting of the Seventh International Barley Genetics Symposium at Saskatoon, Saskatchewan, Canada, on 05 August 1996. † Chromosome numbers and arm designations are based on the Triticeae system. Utilization of this system for naming of barley chromosomes was at the business meeting of the Seventh International Barley Genetics Symposium at Saskatoon, Saskatchewan, Canada, on 05 August 1996. The Burnham and Hagberg (1956) designations of barley chromosomes were 1 2 3 4 5 6 and 7 while new designations based on the Triticeae system are 7H 2H 3H 4H 1H 6H and 5H, respectively.